Convert the strength of selected materials from MPa to ksi.

Question

Want to see more full solutions like this?

Answer 1

Question

Chapter 6, Problem 35P

To determine

Convert the strength of selected materials from MPa to ksi.

Expert Solution & Answer

Answer to Problem 35P

The conversion for the strength of selected materials given in accompanying table from MPa to ksi as follows:

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Explanation of Solution

Given data:

Refer to Problem 6.35 in textbook for the accompanying table.

1 ksi=1000 lbfin.2 (1)

Formula used:

Convert N to lbf,

1 N=224.809×10−3 lbf

Convert meter to foot,

1 m=3.2808 ft

Convert foot to inches,

1 ft=12 in.

Calculation:

Rearrange the equation (1) for conversion of unit as follows,

1 lbfin.2=11000 ksi (2)

Case 1:

For Aluminum alloys:

Ultimate strength=100 MPa=100×106 Pa (3)

Substitute the unit Nm2 for Pa in equation (3).

Ultimate strength=100×106 Nm2 (4)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (4).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (5)

Substitute the unit 12 in. for 1 ft in equation (5).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (6)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (6).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (7)

For Aluminum alloys:

Ultimate strength=550 MPa=550×106 Pa (8)

Substitute the unit Nm2 for Pa in equation (8).

Ultimate strength=550×106 Nm2 (9)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (9).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (10)

Substitute the unit 12 in. for 1 ft in equation (10).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (11)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (11).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (12)

Case 2:

For Concrete (compression):

Ultimate strength=10 MPa=10×106 Pa (13)

Substitute the unit Nm2 for Pa in equation (13).

Ultimate strength=10×106 Nm2 (14)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (14).

Ultimate strength=10×106 (224.809×10−3 lbf)(3.2808 ft)2=(10×106)(224.809×10−3)3.28082 lbfft2=208859.475 lbfft2 (15)

Substitute the unit 12 in. for 1 ft in equation (15).

Ultimate strength=208859.475 lbf(12 in.)2=208859.475122 lbfin.2=1450.413 lbfin.2 (16)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (16).

Ultimate strength=1450.413×11000 ksi=1.4 ksi (17)

For Concrete (compression):

Ultimate strength=70 MPa=70×106 Pa (18)

Substitute the unit Nm2 for Pa in equation (18).

Ultimate strength=70×106 Nm2 (19)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (19).

Ultimate strength=70×106 (224.809×10−3 lbf)(3.2808 ft)2=(70×106)(224.809×10−3)3.28082 lbfft2=1462016.322 lbfft2 (20)

Substitute the unit 12 in. for 1 ft in equation (20).

Ultimate strength=1462016.322 lbf(12 in.)2=1462016.322122 lbfin.2=10152.89 lbfin.2 (21)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (21).

Ultimate strength=10152.89×11000 ksi=10.1 ksi (22)

Case 3:

For Steel-Machine:

Ultimate strength=550 MPa=550×106 Pa (23)

Substitute the unit Nm2 for Pa in equation (23).

Ultimate strength=550×106 Nm2 (24)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (24).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (25)

Substitute the unit 12 in. for 1 ft in equation (25).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (26)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (26).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (27)

For Steel-Machine:

Ultimate strength=860 MPa=860×106 Pa (28)

Substitute the unit Nm2 for Pa in equation (28).

Ultimate strength=860×106 Nm2 (29)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (29).

Ultimate strength=860×106 (224.809×10−3 lbf)(3.2808 ft)2=(860×106)(224.809×10−3)3.28082 lbfft2=17961914.82 lbfft2 (30)

Substitute the unit 12 in. for 1 ft in equation (30).

Ultimate strength=17961914.82 lbf(12 in.)2=17961914.82122 lbfin.2=124735.519 lbfin.2 (31)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (31).

Ultimate strength=124735.519×11000 ksi=124.7 ksi (32)

For Steel-Spring:

Ultimate strength=700 MPa=700×106 Pa (33)

Substitute the unit Nm2 for Pa in equation (33).

Ultimate strength=700×106 Nm2 (34)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (34).

Ultimate strength=700×106 (224.809×10−3 lbf)(3.2808 ft)2=(700×106)(224.809×10−3)3.28082 lbfft2=14620163.22 lbfft2 (35)

Substitute the unit 12 in. for 1 ft in equation (35).

Ultimate strength=14620163.22 lbf(12 in.)2=14620163.22122 lbfin.2=101528.9113 lbfin.2 (36)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (36).

Ultimate strength=101528.9113×11000 ksi=101.5 ksi (37)

For Steel-Spring:

Ultimate strength=1900 MPa=1900×106 Pa (38)

Substitute the unit Nm2 for Pa in equation (38).

Ultimate strength=1900×106 Nm2 (39)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (39).

Ultimate strength=1900×106 (224.809×10−3 lbf)(3.2808 ft)2=(1900×106)(224.809×10−3)3.28082 lbfft2=39683300.18 lbfft2 (40)

Substitute the unit 12 in. for 1 ft in equation (40).

Ultimate strength=39683300.18 lbf(12 in.)2=39683300.18122 lbfin.2=275578.474 lbfin.2 (41)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (41).

Ultimate strength=275578.474×11000 ksi=275.5 ksi (42)

For Steel-Stainless:

Ultimate strength=400 MPa=400×106 Pa (43)

Substitute the unit Nm2 for Pa in equation (43).

Ultimate strength=400×106 Nm2 (44)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (44).

Ultimate strength=400×106 (224.809×10−3 lbf)(3.2808 ft)2=(400×106)(224.809×10−3)3.28082 lbfft2=8354378.985 lbfft2 (45)

Substitute the unit 12 in. for 1 ft in equation (45).

Ultimate strength=8354378.985 lbf(12 in.)2=8354378.985122 lbfin.2=58016.521 lbfin.2 (46)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (46).

Ultimate strength=58016.521×11000 ksi=58.0 ksi (47)

For Steel-Stainless:

Ultimate strength=1000 MPa=1000×106 Pa (48)

Substitute the unit Nm2 for Pa in equation (48).

Ultimate strength=1000×106 Nm2 (49)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (49).

Ultimate strength=1000×106 (224.809×10−3 lbf)(3.2808 ft)2=(1000×106)(224.809×10−3)3.28082 lbfft2=20885947.46 lbfft2 (50)

Substitute the unit 12 in. for 1 ft in equation (50).

Ultimate strength=20885947.46 lbf(12 in.)2=20885947.46122 lbfin.2=145041.302 lbfin.2 (51)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (51).

Ultimate strength=145041.302×11000 ksi=145.0 ksi (52)

For Steel-Tool:

Ultimate strength=900 MPa=900×106 Pa (53)

Substitute the unit Nm2 for Pa in equation (53).

Ultimate strength=900×106 Nm2 (54)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (54).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (55)

Substitute the unit 12 in. for 1 ft in equation (55).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (56)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (56).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (57)

For Steel-Structural Steel:

Ultimate strength=340 MPa=340×106 Pa (58)

Substitute the unit Nm2 for Pa in equation (58).

Ultimate strength=340×106 Nm2 (59)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (59).

Ultimate strength=340×106 (224.809×10−3 lbf)(3.2808 ft)2=(340×106)(224.809×10−3)3.28082 lbfft2=7101222.137 lbfft2 (60)

Substitute the unit 12 in. for 1 ft in equation (60).

Ultimate strength=7101222.137 lbf(12 in.)2=7101222.137122 lbfin.2=49314.043 lbfin.2 (61)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (61).

Ultimate strength=49314.043×11000 ksi=49.3 ksi (62)

For Steel-Structural Steel:

Ultimate strength=830 MPa=830×106 Pa (63)

Substitute the unit Nm2 for Pa in equation (63).

Ultimate strength=830×106 Nm2 (64)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (64).

Ultimate strength=830×106 (224.809×10−3 lbf)(3.2808 ft)2=(830×106)(224.809×10−3)3.28082 lbfft2=17335336.39 lbfft2 (65)

Substitute the unit 12 in. for 1 ft in equation (65).

Ultimate strength=17335336.39 lbf(12 in.)2=17335336.39122 lbfin.2=120384.281 lbfin.2 (66)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (66).

Ultimate strength=120384.281×11000 ksi=120.3 ksi (67)

For Steel-Titanium alloys:

Ultimate strength=900 MPa=900×106 Pa (68)

Substitute the unit Nm2 for Pa in equation (68).

Ultimate strength=900×106 Nm2 (69)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (69).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (70)

Substitute the unit 12 in. for 1 ft in equation (70).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (71)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (71).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (72)

For Steel-Titanium alloys:

Ultimate strength=1200 MPa=1200×106 Pa (73)

Substitute the unit Nm2 for Pa in equation (73).

Ultimate strength=1200×106 Nm2 (74)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (74).

Ultimate strength=1200×106 (224.809×10−3 lbf)(3.2808 ft)2=(1200×106)(224.809×10−3)3.28082 lbfft2=25063136.96 lbfft2 (75)

Substitute the unit 12 in. for 1 ft in equation (75).

Ultimate strength=25063136.96 lbf(12 in.)2=25063136.96122 lbfin.2=174049.562 lbfin.2 (76)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (76).

Ultimate strength=174049.562×11000 ksi=174.0 ksi (77)

Case 4:

For Wood (Bending)-Douglas fir:

Ultimate strength=50 MPa=50×106 Pa (78)

Substitute the unit Nm2 for Pa in equation (78).

Ultimate strength=50×106 Nm2 (79)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (79).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (80)

Substitute the unit 12 in. for 1 ft in equation (80).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (81)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (81).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (82)

For Wood (Bending)-Douglas fir:

Ultimate strength=80 MPa=80×106 Pa (83)

Substitute the unit Nm2 for Pa in equation (83).

Ultimate strength=80×106 Nm2 (84)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (84).

Ultimate strength=80×106 (224.809×10−3 lbf)(3.2808 ft)2=(80×106)(224.809×10−3)3.28082 lbfft2=1670875.797 lbfft2 (85)

Substitute the unit 12 in. for 1 ft in equation (85).

Ultimate strength=1670875.797 lbf(12 in.)2=1670875.797122 lbfin.2=11603.304 lbfin.2 (86)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (86).

Ultimate strength=11603.304×11000 ksi=11.6 ksi (87)

For Wood (Bending)-Oak:

Ultimate strength=50 MPa=50×106 Pa (88)

Substitute the unit Nm2 for Pa in equation (88).

Ultimate strength=50×106 Nm2 (89)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (89).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (90)

Substitute the unit 12 in. for 1 ft in equation (90).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (91)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (91).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (92)

For Wood (Bending)-Oak:

Ultimate strength=100 MPa=100×106 Pa (93)

Substitute the unit Nm2 for Pa in equation (93).

Ultimate strength=100×106 Nm2 (94)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (94).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (95)

Substitute the unit 12 in. for 1 ft in equation (95).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (96)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (96).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (97)

For Wood (Bending)-Southern pine:

Ultimate strength=50 MPa=50×106 Pa (98)

Substitute the unit Nm2 for Pa in equation (98).

Ultimate strength=50×106 Nm2 (99)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (99).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (100)

Substitute the unit 12 in. for 1 ft in equation (100).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (101)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (101).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (102)

For Wood (Bending)-Southern pine;

Ultimate strength=100 MPa=100×106 Pa (103)

Substitute the unit Nm2 for Pa in equation (103).

Ultimate strength=100×106 Nm2 (104)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (104).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (105)

Substitute the unit 12 in. for 1 ft in equation (105).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (106)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (106).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (107)

Thus, the conversion for the strength of selected materials from MPa to ksi is tabulated in Table 1.

Table 1

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Conclusion:

Hence, the conversion for the strength of selected materials from MPa to ksi has been explained.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Students have asked these similar questions

H.W.1: A rectangular beam has a width of 300 mm, and effective depth d=570 mm to centroid of tension steel bars. Tension steel reinforcement consist of 6628mm in two rows, compression reinforcement of 2022mm. Calculate the design moment strength of the beam, where f'c=28 MPa, fy=420 MPa. (Mu=822 kN.m Ans)

H.W.4: A beam section is limited to a width of 250 mm, and total depth h=550 mm, and has to resist a factored moment 307 kN.m.Calculate the required reinforcement, given f'c=21 MPa, fy=350 MPa, d'=65mm. (As=5425mm, As'=2022 mm Ans) HW5 A beam section is limited to a width of 300 mm and total denth h-500 mm and has to resist

H.W.3: A rectangular beam has a width of 400 mm, and effective depth d=700 mm to centroid of tension steel bars. Tension steel reinforcement consist of 4036mm in two rows, compression reinforcement of 2622mm. Calculate the design moment strength of the beam, where f'c=21 MPa, fy=420 MPa, d'=65mm. (Mu=927 kN.m Ans)

Answer 2

Question

Chapter 6, Problem 35P

To determine

Convert the strength of selected materials from MPa to ksi.

Expert Solution & Answer

Answer to Problem 35P

The conversion for the strength of selected materials given in accompanying table from MPa to ksi as follows:

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Explanation of Solution

Given data:

Refer to Problem 6.35 in textbook for the accompanying table.

1 ksi=1000 lbfin.2 (1)

Formula used:

Convert N to lbf,

1 N=224.809×10−3 lbf

Convert meter to foot,

1 m=3.2808 ft

Convert foot to inches,

1 ft=12 in.

Calculation:

Rearrange the equation (1) for conversion of unit as follows,

1 lbfin.2=11000 ksi (2)

Case 1:

For Aluminum alloys:

Ultimate strength=100 MPa=100×106 Pa (3)

Substitute the unit Nm2 for Pa in equation (3).

Ultimate strength=100×106 Nm2 (4)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (4).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (5)

Substitute the unit 12 in. for 1 ft in equation (5).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (6)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (6).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (7)

For Aluminum alloys:

Ultimate strength=550 MPa=550×106 Pa (8)

Substitute the unit Nm2 for Pa in equation (8).

Ultimate strength=550×106 Nm2 (9)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (9).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (10)

Substitute the unit 12 in. for 1 ft in equation (10).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (11)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (11).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (12)

Case 2:

For Concrete (compression):

Ultimate strength=10 MPa=10×106 Pa (13)

Substitute the unit Nm2 for Pa in equation (13).

Ultimate strength=10×106 Nm2 (14)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (14).

Ultimate strength=10×106 (224.809×10−3 lbf)(3.2808 ft)2=(10×106)(224.809×10−3)3.28082 lbfft2=208859.475 lbfft2 (15)

Substitute the unit 12 in. for 1 ft in equation (15).

Ultimate strength=208859.475 lbf(12 in.)2=208859.475122 lbfin.2=1450.413 lbfin.2 (16)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (16).

Ultimate strength=1450.413×11000 ksi=1.4 ksi (17)

For Concrete (compression):

Ultimate strength=70 MPa=70×106 Pa (18)

Substitute the unit Nm2 for Pa in equation (18).

Ultimate strength=70×106 Nm2 (19)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (19).

Ultimate strength=70×106 (224.809×10−3 lbf)(3.2808 ft)2=(70×106)(224.809×10−3)3.28082 lbfft2=1462016.322 lbfft2 (20)

Substitute the unit 12 in. for 1 ft in equation (20).

Ultimate strength=1462016.322 lbf(12 in.)2=1462016.322122 lbfin.2=10152.89 lbfin.2 (21)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (21).

Ultimate strength=10152.89×11000 ksi=10.1 ksi (22)

Case 3:

For Steel-Machine:

Ultimate strength=550 MPa=550×106 Pa (23)

Substitute the unit Nm2 for Pa in equation (23).

Ultimate strength=550×106 Nm2 (24)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (24).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (25)

Substitute the unit 12 in. for 1 ft in equation (25).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (26)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (26).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (27)

For Steel-Machine:

Ultimate strength=860 MPa=860×106 Pa (28)

Substitute the unit Nm2 for Pa in equation (28).

Ultimate strength=860×106 Nm2 (29)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (29).

Ultimate strength=860×106 (224.809×10−3 lbf)(3.2808 ft)2=(860×106)(224.809×10−3)3.28082 lbfft2=17961914.82 lbfft2 (30)

Substitute the unit 12 in. for 1 ft in equation (30).

Ultimate strength=17961914.82 lbf(12 in.)2=17961914.82122 lbfin.2=124735.519 lbfin.2 (31)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (31).

Ultimate strength=124735.519×11000 ksi=124.7 ksi (32)

For Steel-Spring:

Ultimate strength=700 MPa=700×106 Pa (33)

Substitute the unit Nm2 for Pa in equation (33).

Ultimate strength=700×106 Nm2 (34)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (34).

Ultimate strength=700×106 (224.809×10−3 lbf)(3.2808 ft)2=(700×106)(224.809×10−3)3.28082 lbfft2=14620163.22 lbfft2 (35)

Substitute the unit 12 in. for 1 ft in equation (35).

Ultimate strength=14620163.22 lbf(12 in.)2=14620163.22122 lbfin.2=101528.9113 lbfin.2 (36)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (36).

Ultimate strength=101528.9113×11000 ksi=101.5 ksi (37)

For Steel-Spring:

Ultimate strength=1900 MPa=1900×106 Pa (38)

Substitute the unit Nm2 for Pa in equation (38).

Ultimate strength=1900×106 Nm2 (39)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (39).

Ultimate strength=1900×106 (224.809×10−3 lbf)(3.2808 ft)2=(1900×106)(224.809×10−3)3.28082 lbfft2=39683300.18 lbfft2 (40)

Substitute the unit 12 in. for 1 ft in equation (40).

Ultimate strength=39683300.18 lbf(12 in.)2=39683300.18122 lbfin.2=275578.474 lbfin.2 (41)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (41).

Ultimate strength=275578.474×11000 ksi=275.5 ksi (42)

For Steel-Stainless:

Ultimate strength=400 MPa=400×106 Pa (43)

Substitute the unit Nm2 for Pa in equation (43).

Ultimate strength=400×106 Nm2 (44)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (44).

Ultimate strength=400×106 (224.809×10−3 lbf)(3.2808 ft)2=(400×106)(224.809×10−3)3.28082 lbfft2=8354378.985 lbfft2 (45)

Substitute the unit 12 in. for 1 ft in equation (45).

Ultimate strength=8354378.985 lbf(12 in.)2=8354378.985122 lbfin.2=58016.521 lbfin.2 (46)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (46).

Ultimate strength=58016.521×11000 ksi=58.0 ksi (47)

For Steel-Stainless:

Ultimate strength=1000 MPa=1000×106 Pa (48)

Substitute the unit Nm2 for Pa in equation (48).

Ultimate strength=1000×106 Nm2 (49)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (49).

Ultimate strength=1000×106 (224.809×10−3 lbf)(3.2808 ft)2=(1000×106)(224.809×10−3)3.28082 lbfft2=20885947.46 lbfft2 (50)

Substitute the unit 12 in. for 1 ft in equation (50).

Ultimate strength=20885947.46 lbf(12 in.)2=20885947.46122 lbfin.2=145041.302 lbfin.2 (51)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (51).

Ultimate strength=145041.302×11000 ksi=145.0 ksi (52)

For Steel-Tool:

Ultimate strength=900 MPa=900×106 Pa (53)

Substitute the unit Nm2 for Pa in equation (53).

Ultimate strength=900×106 Nm2 (54)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (54).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (55)

Substitute the unit 12 in. for 1 ft in equation (55).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (56)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (56).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (57)

For Steel-Structural Steel:

Ultimate strength=340 MPa=340×106 Pa (58)

Substitute the unit Nm2 for Pa in equation (58).

Ultimate strength=340×106 Nm2 (59)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (59).

Ultimate strength=340×106 (224.809×10−3 lbf)(3.2808 ft)2=(340×106)(224.809×10−3)3.28082 lbfft2=7101222.137 lbfft2 (60)

Substitute the unit 12 in. for 1 ft in equation (60).

Ultimate strength=7101222.137 lbf(12 in.)2=7101222.137122 lbfin.2=49314.043 lbfin.2 (61)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (61).

Ultimate strength=49314.043×11000 ksi=49.3 ksi (62)

For Steel-Structural Steel:

Ultimate strength=830 MPa=830×106 Pa (63)

Substitute the unit Nm2 for Pa in equation (63).

Ultimate strength=830×106 Nm2 (64)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (64).

Ultimate strength=830×106 (224.809×10−3 lbf)(3.2808 ft)2=(830×106)(224.809×10−3)3.28082 lbfft2=17335336.39 lbfft2 (65)

Substitute the unit 12 in. for 1 ft in equation (65).

Ultimate strength=17335336.39 lbf(12 in.)2=17335336.39122 lbfin.2=120384.281 lbfin.2 (66)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (66).

Ultimate strength=120384.281×11000 ksi=120.3 ksi (67)

For Steel-Titanium alloys:

Ultimate strength=900 MPa=900×106 Pa (68)

Substitute the unit Nm2 for Pa in equation (68).

Ultimate strength=900×106 Nm2 (69)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (69).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (70)

Substitute the unit 12 in. for 1 ft in equation (70).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (71)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (71).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (72)

For Steel-Titanium alloys:

Ultimate strength=1200 MPa=1200×106 Pa (73)

Substitute the unit Nm2 for Pa in equation (73).

Ultimate strength=1200×106 Nm2 (74)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (74).

Ultimate strength=1200×106 (224.809×10−3 lbf)(3.2808 ft)2=(1200×106)(224.809×10−3)3.28082 lbfft2=25063136.96 lbfft2 (75)

Substitute the unit 12 in. for 1 ft in equation (75).

Ultimate strength=25063136.96 lbf(12 in.)2=25063136.96122 lbfin.2=174049.562 lbfin.2 (76)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (76).

Ultimate strength=174049.562×11000 ksi=174.0 ksi (77)

Case 4:

For Wood (Bending)-Douglas fir:

Ultimate strength=50 MPa=50×106 Pa (78)

Substitute the unit Nm2 for Pa in equation (78).

Ultimate strength=50×106 Nm2 (79)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (79).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (80)

Substitute the unit 12 in. for 1 ft in equation (80).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (81)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (81).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (82)

For Wood (Bending)-Douglas fir:

Ultimate strength=80 MPa=80×106 Pa (83)

Substitute the unit Nm2 for Pa in equation (83).

Ultimate strength=80×106 Nm2 (84)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (84).

Ultimate strength=80×106 (224.809×10−3 lbf)(3.2808 ft)2=(80×106)(224.809×10−3)3.28082 lbfft2=1670875.797 lbfft2 (85)

Substitute the unit 12 in. for 1 ft in equation (85).

Ultimate strength=1670875.797 lbf(12 in.)2=1670875.797122 lbfin.2=11603.304 lbfin.2 (86)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (86).

Ultimate strength=11603.304×11000 ksi=11.6 ksi (87)

For Wood (Bending)-Oak:

Ultimate strength=50 MPa=50×106 Pa (88)

Substitute the unit Nm2 for Pa in equation (88).

Ultimate strength=50×106 Nm2 (89)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (89).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (90)

Substitute the unit 12 in. for 1 ft in equation (90).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (91)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (91).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (92)

For Wood (Bending)-Oak:

Ultimate strength=100 MPa=100×106 Pa (93)

Substitute the unit Nm2 for Pa in equation (93).

Ultimate strength=100×106 Nm2 (94)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (94).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (95)

Substitute the unit 12 in. for 1 ft in equation (95).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (96)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (96).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (97)

For Wood (Bending)-Southern pine:

Ultimate strength=50 MPa=50×106 Pa (98)

Substitute the unit Nm2 for Pa in equation (98).

Ultimate strength=50×106 Nm2 (99)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (99).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (100)

Substitute the unit 12 in. for 1 ft in equation (100).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (101)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (101).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (102)

For Wood (Bending)-Southern pine;

Ultimate strength=100 MPa=100×106 Pa (103)

Substitute the unit Nm2 for Pa in equation (103).

Ultimate strength=100×106 Nm2 (104)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (104).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (105)

Substitute the unit 12 in. for 1 ft in equation (105).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (106)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (106).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (107)

Thus, the conversion for the strength of selected materials from MPa to ksi is tabulated in Table 1.

Table 1

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Conclusion:

Hence, the conversion for the strength of selected materials from MPa to ksi has been explained.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Question

Chapter 6, Problem 35P

To determine

Convert the strength of selected materials from MPa to ksi.

Expert Solution & Answer

Answer to Problem 35P

The conversion for the strength of selected materials given in accompanying table from MPa to ksi as follows:

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Explanation of Solution

Given data:

Refer to Problem 6.35 in textbook for the accompanying table.

1 ksi=1000 lbfin.2 (1)

Formula used:

Convert N to lbf,

1 N=224.809×10−3 lbf

Convert meter to foot,

1 m=3.2808 ft

Convert foot to inches,

1 ft=12 in.

Calculation:

Rearrange the equation (1) for conversion of unit as follows,

1 lbfin.2=11000 ksi (2)

Case 1:

For Aluminum alloys:

Ultimate strength=100 MPa=100×106 Pa (3)

Substitute the unit Nm2 for Pa in equation (3).

Ultimate strength=100×106 Nm2 (4)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (4).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (5)

Substitute the unit 12 in. for 1 ft in equation (5).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (6)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (6).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (7)

For Aluminum alloys:

Ultimate strength=550 MPa=550×106 Pa (8)

Substitute the unit Nm2 for Pa in equation (8).

Ultimate strength=550×106 Nm2 (9)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (9).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (10)

Substitute the unit 12 in. for 1 ft in equation (10).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (11)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (11).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (12)

Case 2:

For Concrete (compression):

Ultimate strength=10 MPa=10×106 Pa (13)

Substitute the unit Nm2 for Pa in equation (13).

Ultimate strength=10×106 Nm2 (14)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (14).

Ultimate strength=10×106 (224.809×10−3 lbf)(3.2808 ft)2=(10×106)(224.809×10−3)3.28082 lbfft2=208859.475 lbfft2 (15)

Substitute the unit 12 in. for 1 ft in equation (15).

Ultimate strength=208859.475 lbf(12 in.)2=208859.475122 lbfin.2=1450.413 lbfin.2 (16)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (16).

Ultimate strength=1450.413×11000 ksi=1.4 ksi (17)

For Concrete (compression):

Ultimate strength=70 MPa=70×106 Pa (18)

Substitute the unit Nm2 for Pa in equation (18).

Ultimate strength=70×106 Nm2 (19)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (19).

Ultimate strength=70×106 (224.809×10−3 lbf)(3.2808 ft)2=(70×106)(224.809×10−3)3.28082 lbfft2=1462016.322 lbfft2 (20)

Substitute the unit 12 in. for 1 ft in equation (20).

Ultimate strength=1462016.322 lbf(12 in.)2=1462016.322122 lbfin.2=10152.89 lbfin.2 (21)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (21).

Ultimate strength=10152.89×11000 ksi=10.1 ksi (22)

Case 3:

For Steel-Machine:

Ultimate strength=550 MPa=550×106 Pa (23)

Substitute the unit Nm2 for Pa in equation (23).

Ultimate strength=550×106 Nm2 (24)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (24).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (25)

Substitute the unit 12 in. for 1 ft in equation (25).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (26)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (26).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (27)

For Steel-Machine:

Ultimate strength=860 MPa=860×106 Pa (28)

Substitute the unit Nm2 for Pa in equation (28).

Ultimate strength=860×106 Nm2 (29)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (29).

Ultimate strength=860×106 (224.809×10−3 lbf)(3.2808 ft)2=(860×106)(224.809×10−3)3.28082 lbfft2=17961914.82 lbfft2 (30)

Substitute the unit 12 in. for 1 ft in equation (30).

Ultimate strength=17961914.82 lbf(12 in.)2=17961914.82122 lbfin.2=124735.519 lbfin.2 (31)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (31).

Ultimate strength=124735.519×11000 ksi=124.7 ksi (32)

For Steel-Spring:

Ultimate strength=700 MPa=700×106 Pa (33)

Substitute the unit Nm2 for Pa in equation (33).

Ultimate strength=700×106 Nm2 (34)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (34).

Ultimate strength=700×106 (224.809×10−3 lbf)(3.2808 ft)2=(700×106)(224.809×10−3)3.28082 lbfft2=14620163.22 lbfft2 (35)

Substitute the unit 12 in. for 1 ft in equation (35).

Ultimate strength=14620163.22 lbf(12 in.)2=14620163.22122 lbfin.2=101528.9113 lbfin.2 (36)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (36).

Ultimate strength=101528.9113×11000 ksi=101.5 ksi (37)

For Steel-Spring:

Ultimate strength=1900 MPa=1900×106 Pa (38)

Substitute the unit Nm2 for Pa in equation (38).

Ultimate strength=1900×106 Nm2 (39)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (39).

Ultimate strength=1900×106 (224.809×10−3 lbf)(3.2808 ft)2=(1900×106)(224.809×10−3)3.28082 lbfft2=39683300.18 lbfft2 (40)

Substitute the unit 12 in. for 1 ft in equation (40).

Ultimate strength=39683300.18 lbf(12 in.)2=39683300.18122 lbfin.2=275578.474 lbfin.2 (41)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (41).

Ultimate strength=275578.474×11000 ksi=275.5 ksi (42)

For Steel-Stainless:

Ultimate strength=400 MPa=400×106 Pa (43)

Substitute the unit Nm2 for Pa in equation (43).

Ultimate strength=400×106 Nm2 (44)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (44).

Ultimate strength=400×106 (224.809×10−3 lbf)(3.2808 ft)2=(400×106)(224.809×10−3)3.28082 lbfft2=8354378.985 lbfft2 (45)

Substitute the unit 12 in. for 1 ft in equation (45).

Ultimate strength=8354378.985 lbf(12 in.)2=8354378.985122 lbfin.2=58016.521 lbfin.2 (46)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (46).

Ultimate strength=58016.521×11000 ksi=58.0 ksi (47)

For Steel-Stainless:

Ultimate strength=1000 MPa=1000×106 Pa (48)

Substitute the unit Nm2 for Pa in equation (48).

Ultimate strength=1000×106 Nm2 (49)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (49).

Ultimate strength=1000×106 (224.809×10−3 lbf)(3.2808 ft)2=(1000×106)(224.809×10−3)3.28082 lbfft2=20885947.46 lbfft2 (50)

Substitute the unit 12 in. for 1 ft in equation (50).

Ultimate strength=20885947.46 lbf(12 in.)2=20885947.46122 lbfin.2=145041.302 lbfin.2 (51)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (51).

Ultimate strength=145041.302×11000 ksi=145.0 ksi (52)

For Steel-Tool:

Ultimate strength=900 MPa=900×106 Pa (53)

Substitute the unit Nm2 for Pa in equation (53).

Ultimate strength=900×106 Nm2 (54)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (54).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (55)

Substitute the unit 12 in. for 1 ft in equation (55).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (56)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (56).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (57)

For Steel-Structural Steel:

Ultimate strength=340 MPa=340×106 Pa (58)

Substitute the unit Nm2 for Pa in equation (58).

Ultimate strength=340×106 Nm2 (59)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (59).

Ultimate strength=340×106 (224.809×10−3 lbf)(3.2808 ft)2=(340×106)(224.809×10−3)3.28082 lbfft2=7101222.137 lbfft2 (60)

Substitute the unit 12 in. for 1 ft in equation (60).

Ultimate strength=7101222.137 lbf(12 in.)2=7101222.137122 lbfin.2=49314.043 lbfin.2 (61)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (61).

Ultimate strength=49314.043×11000 ksi=49.3 ksi (62)

For Steel-Structural Steel:

Ultimate strength=830 MPa=830×106 Pa (63)

Substitute the unit Nm2 for Pa in equation (63).

Ultimate strength=830×106 Nm2 (64)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (64).

Ultimate strength=830×106 (224.809×10−3 lbf)(3.2808 ft)2=(830×106)(224.809×10−3)3.28082 lbfft2=17335336.39 lbfft2 (65)

Substitute the unit 12 in. for 1 ft in equation (65).

Ultimate strength=17335336.39 lbf(12 in.)2=17335336.39122 lbfin.2=120384.281 lbfin.2 (66)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (66).

Ultimate strength=120384.281×11000 ksi=120.3 ksi (67)

For Steel-Titanium alloys:

Ultimate strength=900 MPa=900×106 Pa (68)

Substitute the unit Nm2 for Pa in equation (68).

Ultimate strength=900×106 Nm2 (69)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (69).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (70)

Substitute the unit 12 in. for 1 ft in equation (70).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (71)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (71).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (72)

For Steel-Titanium alloys:

Ultimate strength=1200 MPa=1200×106 Pa (73)

Substitute the unit Nm2 for Pa in equation (73).

Ultimate strength=1200×106 Nm2 (74)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (74).

Ultimate strength=1200×106 (224.809×10−3 lbf)(3.2808 ft)2=(1200×106)(224.809×10−3)3.28082 lbfft2=25063136.96 lbfft2 (75)

Substitute the unit 12 in. for 1 ft in equation (75).

Ultimate strength=25063136.96 lbf(12 in.)2=25063136.96122 lbfin.2=174049.562 lbfin.2 (76)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (76).

Ultimate strength=174049.562×11000 ksi=174.0 ksi (77)

Case 4:

For Wood (Bending)-Douglas fir:

Ultimate strength=50 MPa=50×106 Pa (78)

Substitute the unit Nm2 for Pa in equation (78).

Ultimate strength=50×106 Nm2 (79)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (79).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (80)

Substitute the unit 12 in. for 1 ft in equation (80).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (81)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (81).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (82)

For Wood (Bending)-Douglas fir:

Ultimate strength=80 MPa=80×106 Pa (83)

Substitute the unit Nm2 for Pa in equation (83).

Ultimate strength=80×106 Nm2 (84)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (84).

Ultimate strength=80×106 (224.809×10−3 lbf)(3.2808 ft)2=(80×106)(224.809×10−3)3.28082 lbfft2=1670875.797 lbfft2 (85)

Substitute the unit 12 in. for 1 ft in equation (85).

Ultimate strength=1670875.797 lbf(12 in.)2=1670875.797122 lbfin.2=11603.304 lbfin.2 (86)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (86).

Ultimate strength=11603.304×11000 ksi=11.6 ksi (87)

For Wood (Bending)-Oak:

Ultimate strength=50 MPa=50×106 Pa (88)

Substitute the unit Nm2 for Pa in equation (88).

Ultimate strength=50×106 Nm2 (89)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (89).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (90)

Substitute the unit 12 in. for 1 ft in equation (90).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (91)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (91).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (92)

For Wood (Bending)-Oak:

Ultimate strength=100 MPa=100×106 Pa (93)

Substitute the unit Nm2 for Pa in equation (93).

Ultimate strength=100×106 Nm2 (94)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (94).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (95)

Substitute the unit 12 in. for 1 ft in equation (95).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (96)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (96).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (97)

For Wood (Bending)-Southern pine:

Ultimate strength=50 MPa=50×106 Pa (98)

Substitute the unit Nm2 for Pa in equation (98).

Ultimate strength=50×106 Nm2 (99)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (99).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (100)

Substitute the unit 12 in. for 1 ft in equation (100).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (101)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (101).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (102)

For Wood (Bending)-Southern pine;

Ultimate strength=100 MPa=100×106 Pa (103)

Substitute the unit Nm2 for Pa in equation (103).

Ultimate strength=100×106 Nm2 (104)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (104).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (105)

Substitute the unit 12 in. for 1 ft in equation (105).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (106)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (106).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (107)

Thus, the conversion for the strength of selected materials from MPa to ksi is tabulated in Table 1.

Table 1

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Conclusion:

Hence, the conversion for the strength of selected materials from MPa to ksi has been explained.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Question

Chapter 6, Problem 35P

To determine

Convert the strength of selected materials from MPa to ksi.

Expert Solution & Answer

Answer to Problem 35P

The conversion for the strength of selected materials given in accompanying table from MPa to ksi as follows:

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Explanation of Solution

Given data:

Refer to Problem 6.35 in textbook for the accompanying table.

1 ksi=1000 lbfin.2 (1)

Formula used:

Convert N to lbf,

1 N=224.809×10−3 lbf

Convert meter to foot,

1 m=3.2808 ft

Convert foot to inches,

1 ft=12 in.

Calculation:

Rearrange the equation (1) for conversion of unit as follows,

1 lbfin.2=11000 ksi (2)

Case 1:

For Aluminum alloys:

Ultimate strength=100 MPa=100×106 Pa (3)

Substitute the unit Nm2 for Pa in equation (3).

Ultimate strength=100×106 Nm2 (4)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (4).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (5)

Substitute the unit 12 in. for 1 ft in equation (5).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (6)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (6).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (7)

For Aluminum alloys:

Ultimate strength=550 MPa=550×106 Pa (8)

Substitute the unit Nm2 for Pa in equation (8).

Ultimate strength=550×106 Nm2 (9)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (9).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (10)

Substitute the unit 12 in. for 1 ft in equation (10).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (11)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (11).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (12)

Case 2:

For Concrete (compression):

Ultimate strength=10 MPa=10×106 Pa (13)

Substitute the unit Nm2 for Pa in equation (13).

Ultimate strength=10×106 Nm2 (14)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (14).

Ultimate strength=10×106 (224.809×10−3 lbf)(3.2808 ft)2=(10×106)(224.809×10−3)3.28082 lbfft2=208859.475 lbfft2 (15)

Substitute the unit 12 in. for 1 ft in equation (15).

Ultimate strength=208859.475 lbf(12 in.)2=208859.475122 lbfin.2=1450.413 lbfin.2 (16)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (16).

Ultimate strength=1450.413×11000 ksi=1.4 ksi (17)

For Concrete (compression):

Ultimate strength=70 MPa=70×106 Pa (18)

Substitute the unit Nm2 for Pa in equation (18).

Ultimate strength=70×106 Nm2 (19)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (19).

Ultimate strength=70×106 (224.809×10−3 lbf)(3.2808 ft)2=(70×106)(224.809×10−3)3.28082 lbfft2=1462016.322 lbfft2 (20)

Substitute the unit 12 in. for 1 ft in equation (20).

Ultimate strength=1462016.322 lbf(12 in.)2=1462016.322122 lbfin.2=10152.89 lbfin.2 (21)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (21).

Ultimate strength=10152.89×11000 ksi=10.1 ksi (22)

Case 3:

For Steel-Machine:

Ultimate strength=550 MPa=550×106 Pa (23)

Substitute the unit Nm2 for Pa in equation (23).

Ultimate strength=550×106 Nm2 (24)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (24).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (25)

Substitute the unit 12 in. for 1 ft in equation (25).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (26)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (26).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (27)

For Steel-Machine:

Ultimate strength=860 MPa=860×106 Pa (28)

Substitute the unit Nm2 for Pa in equation (28).

Ultimate strength=860×106 Nm2 (29)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (29).

Ultimate strength=860×106 (224.809×10−3 lbf)(3.2808 ft)2=(860×106)(224.809×10−3)3.28082 lbfft2=17961914.82 lbfft2 (30)

Substitute the unit 12 in. for 1 ft in equation (30).

Ultimate strength=17961914.82 lbf(12 in.)2=17961914.82122 lbfin.2=124735.519 lbfin.2 (31)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (31).

Ultimate strength=124735.519×11000 ksi=124.7 ksi (32)

For Steel-Spring:

Ultimate strength=700 MPa=700×106 Pa (33)

Substitute the unit Nm2 for Pa in equation (33).

Ultimate strength=700×106 Nm2 (34)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (34).

Ultimate strength=700×106 (224.809×10−3 lbf)(3.2808 ft)2=(700×106)(224.809×10−3)3.28082 lbfft2=14620163.22 lbfft2 (35)

Substitute the unit 12 in. for 1 ft in equation (35).

Ultimate strength=14620163.22 lbf(12 in.)2=14620163.22122 lbfin.2=101528.9113 lbfin.2 (36)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (36).

Ultimate strength=101528.9113×11000 ksi=101.5 ksi (37)

For Steel-Spring:

Ultimate strength=1900 MPa=1900×106 Pa (38)

Substitute the unit Nm2 for Pa in equation (38).

Ultimate strength=1900×106 Nm2 (39)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (39).

Ultimate strength=1900×106 (224.809×10−3 lbf)(3.2808 ft)2=(1900×106)(224.809×10−3)3.28082 lbfft2=39683300.18 lbfft2 (40)

Substitute the unit 12 in. for 1 ft in equation (40).

Ultimate strength=39683300.18 lbf(12 in.)2=39683300.18122 lbfin.2=275578.474 lbfin.2 (41)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (41).

Ultimate strength=275578.474×11000 ksi=275.5 ksi (42)

For Steel-Stainless:

Ultimate strength=400 MPa=400×106 Pa (43)

Substitute the unit Nm2 for Pa in equation (43).

Ultimate strength=400×106 Nm2 (44)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (44).

Ultimate strength=400×106 (224.809×10−3 lbf)(3.2808 ft)2=(400×106)(224.809×10−3)3.28082 lbfft2=8354378.985 lbfft2 (45)

Substitute the unit 12 in. for 1 ft in equation (45).

Ultimate strength=8354378.985 lbf(12 in.)2=8354378.985122 lbfin.2=58016.521 lbfin.2 (46)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (46).

Ultimate strength=58016.521×11000 ksi=58.0 ksi (47)

For Steel-Stainless:

Ultimate strength=1000 MPa=1000×106 Pa (48)

Substitute the unit Nm2 for Pa in equation (48).

Ultimate strength=1000×106 Nm2 (49)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (49).

Ultimate strength=1000×106 (224.809×10−3 lbf)(3.2808 ft)2=(1000×106)(224.809×10−3)3.28082 lbfft2=20885947.46 lbfft2 (50)

Substitute the unit 12 in. for 1 ft in equation (50).

Ultimate strength=20885947.46 lbf(12 in.)2=20885947.46122 lbfin.2=145041.302 lbfin.2 (51)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (51).

Ultimate strength=145041.302×11000 ksi=145.0 ksi (52)

For Steel-Tool:

Ultimate strength=900 MPa=900×106 Pa (53)

Substitute the unit Nm2 for Pa in equation (53).

Ultimate strength=900×106 Nm2 (54)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (54).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (55)

Substitute the unit 12 in. for 1 ft in equation (55).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (56)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (56).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (57)

For Steel-Structural Steel:

Ultimate strength=340 MPa=340×106 Pa (58)

Substitute the unit Nm2 for Pa in equation (58).

Ultimate strength=340×106 Nm2 (59)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (59).

Ultimate strength=340×106 (224.809×10−3 lbf)(3.2808 ft)2=(340×106)(224.809×10−3)3.28082 lbfft2=7101222.137 lbfft2 (60)

Substitute the unit 12 in. for 1 ft in equation (60).

Ultimate strength=7101222.137 lbf(12 in.)2=7101222.137122 lbfin.2=49314.043 lbfin.2 (61)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (61).

Ultimate strength=49314.043×11000 ksi=49.3 ksi (62)

For Steel-Structural Steel:

Ultimate strength=830 MPa=830×106 Pa (63)

Substitute the unit Nm2 for Pa in equation (63).

Ultimate strength=830×106 Nm2 (64)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (64).

Ultimate strength=830×106 (224.809×10−3 lbf)(3.2808 ft)2=(830×106)(224.809×10−3)3.28082 lbfft2=17335336.39 lbfft2 (65)

Substitute the unit 12 in. for 1 ft in equation (65).

Ultimate strength=17335336.39 lbf(12 in.)2=17335336.39122 lbfin.2=120384.281 lbfin.2 (66)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (66).

Ultimate strength=120384.281×11000 ksi=120.3 ksi (67)

For Steel-Titanium alloys:

Ultimate strength=900 MPa=900×106 Pa (68)

Substitute the unit Nm2 for Pa in equation (68).

Ultimate strength=900×106 Nm2 (69)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (69).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (70)

Substitute the unit 12 in. for 1 ft in equation (70).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (71)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (71).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (72)

For Steel-Titanium alloys:

Ultimate strength=1200 MPa=1200×106 Pa (73)

Substitute the unit Nm2 for Pa in equation (73).

Ultimate strength=1200×106 Nm2 (74)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (74).

Ultimate strength=1200×106 (224.809×10−3 lbf)(3.2808 ft)2=(1200×106)(224.809×10−3)3.28082 lbfft2=25063136.96 lbfft2 (75)

Substitute the unit 12 in. for 1 ft in equation (75).

Ultimate strength=25063136.96 lbf(12 in.)2=25063136.96122 lbfin.2=174049.562 lbfin.2 (76)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (76).

Ultimate strength=174049.562×11000 ksi=174.0 ksi (77)

Case 4:

For Wood (Bending)-Douglas fir:

Ultimate strength=50 MPa=50×106 Pa (78)

Substitute the unit Nm2 for Pa in equation (78).

Ultimate strength=50×106 Nm2 (79)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (79).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (80)

Substitute the unit 12 in. for 1 ft in equation (80).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (81)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (81).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (82)

For Wood (Bending)-Douglas fir:

Ultimate strength=80 MPa=80×106 Pa (83)

Substitute the unit Nm2 for Pa in equation (83).

Ultimate strength=80×106 Nm2 (84)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (84).

Ultimate strength=80×106 (224.809×10−3 lbf)(3.2808 ft)2=(80×106)(224.809×10−3)3.28082 lbfft2=1670875.797 lbfft2 (85)

Substitute the unit 12 in. for 1 ft in equation (85).

Ultimate strength=1670875.797 lbf(12 in.)2=1670875.797122 lbfin.2=11603.304 lbfin.2 (86)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (86).

Ultimate strength=11603.304×11000 ksi=11.6 ksi (87)

For Wood (Bending)-Oak:

Ultimate strength=50 MPa=50×106 Pa (88)

Substitute the unit Nm2 for Pa in equation (88).

Ultimate strength=50×106 Nm2 (89)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (89).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (90)

Substitute the unit 12 in. for 1 ft in equation (90).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (91)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (91).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (92)

For Wood (Bending)-Oak:

Ultimate strength=100 MPa=100×106 Pa (93)

Substitute the unit Nm2 for Pa in equation (93).

Ultimate strength=100×106 Nm2 (94)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (94).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (95)

Substitute the unit 12 in. for 1 ft in equation (95).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (96)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (96).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (97)

For Wood (Bending)-Southern pine:

Ultimate strength=50 MPa=50×106 Pa (98)

Substitute the unit Nm2 for Pa in equation (98).

Ultimate strength=50×106 Nm2 (99)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (99).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (100)

Substitute the unit 12 in. for 1 ft in equation (100).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (101)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (101).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (102)

For Wood (Bending)-Southern pine;

Ultimate strength=100 MPa=100×106 Pa (103)

Substitute the unit Nm2 for Pa in equation (103).

Ultimate strength=100×106 Nm2 (104)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (104).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (105)

Substitute the unit 12 in. for 1 ft in equation (105).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (106)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (106).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (107)

Thus, the conversion for the strength of selected materials from MPa to ksi is tabulated in Table 1.

Table 1

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Conclusion:

Hence, the conversion for the strength of selected materials from MPa to ksi has been explained.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Chapter 6, Problem 35P

To determine

Convert the strength of selected materials from MPa to ksi.

Expert Solution & Answer

Answer to Problem 35P

The conversion for the strength of selected materials given in accompanying table from MPa to ksi as follows:

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Explanation of Solution

Given data:

Refer to Problem 6.35 in textbook for the accompanying table.

1 ksi=1000 lbfin.2 (1)

Formula used:

Convert N to lbf,

1 N=224.809×10−3 lbf

Convert meter to foot,

1 m=3.2808 ft

Convert foot to inches,

1 ft=12 in.

Calculation:

Rearrange the equation (1) for conversion of unit as follows,

1 lbfin.2=11000 ksi (2)

Case 1:

For Aluminum alloys:

Ultimate strength=100 MPa=100×106 Pa (3)

Substitute the unit Nm2 for Pa in equation (3).

Ultimate strength=100×106 Nm2 (4)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (4).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (5)

Substitute the unit 12 in. for 1 ft in equation (5).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (6)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (6).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (7)

For Aluminum alloys:

Ultimate strength=550 MPa=550×106 Pa (8)

Substitute the unit Nm2 for Pa in equation (8).

Ultimate strength=550×106 Nm2 (9)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (9).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (10)

Substitute the unit 12 in. for 1 ft in equation (10).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (11)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (11).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (12)

Case 2:

For Concrete (compression):

Ultimate strength=10 MPa=10×106 Pa (13)

Substitute the unit Nm2 for Pa in equation (13).

Ultimate strength=10×106 Nm2 (14)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (14).

Ultimate strength=10×106 (224.809×10−3 lbf)(3.2808 ft)2=(10×106)(224.809×10−3)3.28082 lbfft2=208859.475 lbfft2 (15)

Substitute the unit 12 in. for 1 ft in equation (15).

Ultimate strength=208859.475 lbf(12 in.)2=208859.475122 lbfin.2=1450.413 lbfin.2 (16)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (16).

Ultimate strength=1450.413×11000 ksi=1.4 ksi (17)

For Concrete (compression):

Ultimate strength=70 MPa=70×106 Pa (18)

Substitute the unit Nm2 for Pa in equation (18).

Ultimate strength=70×106 Nm2 (19)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (19).

Ultimate strength=70×106 (224.809×10−3 lbf)(3.2808 ft)2=(70×106)(224.809×10−3)3.28082 lbfft2=1462016.322 lbfft2 (20)

Substitute the unit 12 in. for 1 ft in equation (20).

Ultimate strength=1462016.322 lbf(12 in.)2=1462016.322122 lbfin.2=10152.89 lbfin.2 (21)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (21).

Ultimate strength=10152.89×11000 ksi=10.1 ksi (22)

Case 3:

For Steel-Machine:

Ultimate strength=550 MPa=550×106 Pa (23)

Substitute the unit Nm2 for Pa in equation (23).

Ultimate strength=550×106 Nm2 (24)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (24).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (25)

Substitute the unit 12 in. for 1 ft in equation (25).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (26)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (26).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (27)

For Steel-Machine:

Ultimate strength=860 MPa=860×106 Pa (28)

Substitute the unit Nm2 for Pa in equation (28).

Ultimate strength=860×106 Nm2 (29)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (29).

Ultimate strength=860×106 (224.809×10−3 lbf)(3.2808 ft)2=(860×106)(224.809×10−3)3.28082 lbfft2=17961914.82 lbfft2 (30)

Substitute the unit 12 in. for 1 ft in equation (30).

Ultimate strength=17961914.82 lbf(12 in.)2=17961914.82122 lbfin.2=124735.519 lbfin.2 (31)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (31).

Ultimate strength=124735.519×11000 ksi=124.7 ksi (32)

For Steel-Spring:

Ultimate strength=700 MPa=700×106 Pa (33)

Substitute the unit Nm2 for Pa in equation (33).

Ultimate strength=700×106 Nm2 (34)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (34).

Ultimate strength=700×106 (224.809×10−3 lbf)(3.2808 ft)2=(700×106)(224.809×10−3)3.28082 lbfft2=14620163.22 lbfft2 (35)

Substitute the unit 12 in. for 1 ft in equation (35).

Ultimate strength=14620163.22 lbf(12 in.)2=14620163.22122 lbfin.2=101528.9113 lbfin.2 (36)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (36).

Ultimate strength=101528.9113×11000 ksi=101.5 ksi (37)

For Steel-Spring:

Ultimate strength=1900 MPa=1900×106 Pa (38)

Substitute the unit Nm2 for Pa in equation (38).

Ultimate strength=1900×106 Nm2 (39)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (39).

Ultimate strength=1900×106 (224.809×10−3 lbf)(3.2808 ft)2=(1900×106)(224.809×10−3)3.28082 lbfft2=39683300.18 lbfft2 (40)

Substitute the unit 12 in. for 1 ft in equation (40).

Ultimate strength=39683300.18 lbf(12 in.)2=39683300.18122 lbfin.2=275578.474 lbfin.2 (41)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (41).

Ultimate strength=275578.474×11000 ksi=275.5 ksi (42)

For Steel-Stainless:

Ultimate strength=400 MPa=400×106 Pa (43)

Substitute the unit Nm2 for Pa in equation (43).

Ultimate strength=400×106 Nm2 (44)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (44).

Ultimate strength=400×106 (224.809×10−3 lbf)(3.2808 ft)2=(400×106)(224.809×10−3)3.28082 lbfft2=8354378.985 lbfft2 (45)

Substitute the unit 12 in. for 1 ft in equation (45).

Ultimate strength=8354378.985 lbf(12 in.)2=8354378.985122 lbfin.2=58016.521 lbfin.2 (46)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (46).

Ultimate strength=58016.521×11000 ksi=58.0 ksi (47)

For Steel-Stainless:

Ultimate strength=1000 MPa=1000×106 Pa (48)

Substitute the unit Nm2 for Pa in equation (48).

Ultimate strength=1000×106 Nm2 (49)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (49).

Ultimate strength=1000×106 (224.809×10−3 lbf)(3.2808 ft)2=(1000×106)(224.809×10−3)3.28082 lbfft2=20885947.46 lbfft2 (50)

Substitute the unit 12 in. for 1 ft in equation (50).

Ultimate strength=20885947.46 lbf(12 in.)2=20885947.46122 lbfin.2=145041.302 lbfin.2 (51)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (51).

Ultimate strength=145041.302×11000 ksi=145.0 ksi (52)

For Steel-Tool:

Ultimate strength=900 MPa=900×106 Pa (53)

Substitute the unit Nm2 for Pa in equation (53).

Ultimate strength=900×106 Nm2 (54)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (54).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (55)

Substitute the unit 12 in. for 1 ft in equation (55).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (56)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (56).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (57)

For Steel-Structural Steel:

Ultimate strength=340 MPa=340×106 Pa (58)

Substitute the unit Nm2 for Pa in equation (58).

Ultimate strength=340×106 Nm2 (59)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (59).

Ultimate strength=340×106 (224.809×10−3 lbf)(3.2808 ft)2=(340×106)(224.809×10−3)3.28082 lbfft2=7101222.137 lbfft2 (60)

Substitute the unit 12 in. for 1 ft in equation (60).

Ultimate strength=7101222.137 lbf(12 in.)2=7101222.137122 lbfin.2=49314.043 lbfin.2 (61)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (61).

Ultimate strength=49314.043×11000 ksi=49.3 ksi (62)

For Steel-Structural Steel:

Ultimate strength=830 MPa=830×106 Pa (63)

Substitute the unit Nm2 for Pa in equation (63).

Ultimate strength=830×106 Nm2 (64)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (64).

Ultimate strength=830×106 (224.809×10−3 lbf)(3.2808 ft)2=(830×106)(224.809×10−3)3.28082 lbfft2=17335336.39 lbfft2 (65)

Substitute the unit 12 in. for 1 ft in equation (65).

Ultimate strength=17335336.39 lbf(12 in.)2=17335336.39122 lbfin.2=120384.281 lbfin.2 (66)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (66).

Ultimate strength=120384.281×11000 ksi=120.3 ksi (67)

For Steel-Titanium alloys:

Ultimate strength=900 MPa=900×106 Pa (68)

Substitute the unit Nm2 for Pa in equation (68).

Ultimate strength=900×106 Nm2 (69)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (69).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (70)

Substitute the unit 12 in. for 1 ft in equation (70).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (71)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (71).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (72)

For Steel-Titanium alloys:

Ultimate strength=1200 MPa=1200×106 Pa (73)

Substitute the unit Nm2 for Pa in equation (73).

Ultimate strength=1200×106 Nm2 (74)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (74).

Ultimate strength=1200×106 (224.809×10−3 lbf)(3.2808 ft)2=(1200×106)(224.809×10−3)3.28082 lbfft2=25063136.96 lbfft2 (75)

Substitute the unit 12 in. for 1 ft in equation (75).

Ultimate strength=25063136.96 lbf(12 in.)2=25063136.96122 lbfin.2=174049.562 lbfin.2 (76)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (76).

Ultimate strength=174049.562×11000 ksi=174.0 ksi (77)

Case 4:

For Wood (Bending)-Douglas fir:

Ultimate strength=50 MPa=50×106 Pa (78)

Substitute the unit Nm2 for Pa in equation (78).

Ultimate strength=50×106 Nm2 (79)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (79).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (80)

Substitute the unit 12 in. for 1 ft in equation (80).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (81)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (81).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (82)

For Wood (Bending)-Douglas fir:

Ultimate strength=80 MPa=80×106 Pa (83)

Substitute the unit Nm2 for Pa in equation (83).

Ultimate strength=80×106 Nm2 (84)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (84).

Ultimate strength=80×106 (224.809×10−3 lbf)(3.2808 ft)2=(80×106)(224.809×10−3)3.28082 lbfft2=1670875.797 lbfft2 (85)

Substitute the unit 12 in. for 1 ft in equation (85).

Ultimate strength=1670875.797 lbf(12 in.)2=1670875.797122 lbfin.2=11603.304 lbfin.2 (86)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (86).

Ultimate strength=11603.304×11000 ksi=11.6 ksi (87)

For Wood (Bending)-Oak:

Ultimate strength=50 MPa=50×106 Pa (88)

Substitute the unit Nm2 for Pa in equation (88).

Ultimate strength=50×106 Nm2 (89)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (89).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (90)

Substitute the unit 12 in. for 1 ft in equation (90).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (91)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (91).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (92)

For Wood (Bending)-Oak:

Ultimate strength=100 MPa=100×106 Pa (93)

Substitute the unit Nm2 for Pa in equation (93).

Ultimate strength=100×106 Nm2 (94)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (94).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (95)

Substitute the unit 12 in. for 1 ft in equation (95).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (96)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (96).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (97)

For Wood (Bending)-Southern pine:

Ultimate strength=50 MPa=50×106 Pa (98)

Substitute the unit Nm2 for Pa in equation (98).

Ultimate strength=50×106 Nm2 (99)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (99).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (100)

Substitute the unit 12 in. for 1 ft in equation (100).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (101)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (101).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (102)

For Wood (Bending)-Southern pine;

Ultimate strength=100 MPa=100×106 Pa (103)

Substitute the unit Nm2 for Pa in equation (103).

Ultimate strength=100×106 Nm2 (104)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (104).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (105)

Substitute the unit 12 in. for 1 ft in equation (105).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (106)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (106).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (107)

Thus, the conversion for the strength of selected materials from MPa to ksi is tabulated in Table 1.

Table 1

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Conclusion:

Hence, the conversion for the strength of selected materials from MPa to ksi has been explained.

Answer 6

Chapter 6, Problem 35P

To determine

Convert the strength of selected materials from MPa to ksi.

Expert Solution & Answer

Answer to Problem 35P

The conversion for the strength of selected materials given in accompanying table from MPa to ksi as follows:

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Explanation of Solution

Given data:

Refer to Problem 6.35 in textbook for the accompanying table.

1 ksi=1000 lbfin.2 (1)

Formula used:

Convert N to lbf,

1 N=224.809×10−3 lbf

Convert meter to foot,

1 m=3.2808 ft

Convert foot to inches,

1 ft=12 in.

Calculation:

Rearrange the equation (1) for conversion of unit as follows,

1 lbfin.2=11000 ksi (2)

Case 1:

For Aluminum alloys:

Ultimate strength=100 MPa=100×106 Pa (3)

Substitute the unit Nm2 for Pa in equation (3).

Ultimate strength=100×106 Nm2 (4)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (4).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (5)

Substitute the unit 12 in. for 1 ft in equation (5).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (6)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (6).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (7)

For Aluminum alloys:

Ultimate strength=550 MPa=550×106 Pa (8)

Substitute the unit Nm2 for Pa in equation (8).

Ultimate strength=550×106 Nm2 (9)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (9).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (10)

Substitute the unit 12 in. for 1 ft in equation (10).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (11)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (11).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (12)

Case 2:

For Concrete (compression):

Ultimate strength=10 MPa=10×106 Pa (13)

Substitute the unit Nm2 for Pa in equation (13).

Ultimate strength=10×106 Nm2 (14)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (14).

Ultimate strength=10×106 (224.809×10−3 lbf)(3.2808 ft)2=(10×106)(224.809×10−3)3.28082 lbfft2=208859.475 lbfft2 (15)

Substitute the unit 12 in. for 1 ft in equation (15).

Ultimate strength=208859.475 lbf(12 in.)2=208859.475122 lbfin.2=1450.413 lbfin.2 (16)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (16).

Ultimate strength=1450.413×11000 ksi=1.4 ksi (17)

For Concrete (compression):

Ultimate strength=70 MPa=70×106 Pa (18)

Substitute the unit Nm2 for Pa in equation (18).

Ultimate strength=70×106 Nm2 (19)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (19).

Ultimate strength=70×106 (224.809×10−3 lbf)(3.2808 ft)2=(70×106)(224.809×10−3)3.28082 lbfft2=1462016.322 lbfft2 (20)

Substitute the unit 12 in. for 1 ft in equation (20).

Ultimate strength=1462016.322 lbf(12 in.)2=1462016.322122 lbfin.2=10152.89 lbfin.2 (21)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (21).

Ultimate strength=10152.89×11000 ksi=10.1 ksi (22)

Case 3:

For Steel-Machine:

Ultimate strength=550 MPa=550×106 Pa (23)

Substitute the unit Nm2 for Pa in equation (23).

Ultimate strength=550×106 Nm2 (24)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (24).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (25)

Substitute the unit 12 in. for 1 ft in equation (25).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (26)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (26).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (27)

For Steel-Machine:

Ultimate strength=860 MPa=860×106 Pa (28)

Substitute the unit Nm2 for Pa in equation (28).

Ultimate strength=860×106 Nm2 (29)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (29).

Ultimate strength=860×106 (224.809×10−3 lbf)(3.2808 ft)2=(860×106)(224.809×10−3)3.28082 lbfft2=17961914.82 lbfft2 (30)

Substitute the unit 12 in. for 1 ft in equation (30).

Ultimate strength=17961914.82 lbf(12 in.)2=17961914.82122 lbfin.2=124735.519 lbfin.2 (31)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (31).

Ultimate strength=124735.519×11000 ksi=124.7 ksi (32)

For Steel-Spring:

Ultimate strength=700 MPa=700×106 Pa (33)

Substitute the unit Nm2 for Pa in equation (33).

Ultimate strength=700×106 Nm2 (34)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (34).

Ultimate strength=700×106 (224.809×10−3 lbf)(3.2808 ft)2=(700×106)(224.809×10−3)3.28082 lbfft2=14620163.22 lbfft2 (35)

Substitute the unit 12 in. for 1 ft in equation (35).

Ultimate strength=14620163.22 lbf(12 in.)2=14620163.22122 lbfin.2=101528.9113 lbfin.2 (36)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (36).

Ultimate strength=101528.9113×11000 ksi=101.5 ksi (37)

For Steel-Spring:

Ultimate strength=1900 MPa=1900×106 Pa (38)

Substitute the unit Nm2 for Pa in equation (38).

Ultimate strength=1900×106 Nm2 (39)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (39).

Ultimate strength=1900×106 (224.809×10−3 lbf)(3.2808 ft)2=(1900×106)(224.809×10−3)3.28082 lbfft2=39683300.18 lbfft2 (40)

Substitute the unit 12 in. for 1 ft in equation (40).

Ultimate strength=39683300.18 lbf(12 in.)2=39683300.18122 lbfin.2=275578.474 lbfin.2 (41)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (41).

Ultimate strength=275578.474×11000 ksi=275.5 ksi (42)

For Steel-Stainless:

Ultimate strength=400 MPa=400×106 Pa (43)

Substitute the unit Nm2 for Pa in equation (43).

Ultimate strength=400×106 Nm2 (44)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (44).

Ultimate strength=400×106 (224.809×10−3 lbf)(3.2808 ft)2=(400×106)(224.809×10−3)3.28082 lbfft2=8354378.985 lbfft2 (45)

Substitute the unit 12 in. for 1 ft in equation (45).

Ultimate strength=8354378.985 lbf(12 in.)2=8354378.985122 lbfin.2=58016.521 lbfin.2 (46)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (46).

Ultimate strength=58016.521×11000 ksi=58.0 ksi (47)

For Steel-Stainless:

Ultimate strength=1000 MPa=1000×106 Pa (48)

Substitute the unit Nm2 for Pa in equation (48).

Ultimate strength=1000×106 Nm2 (49)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (49).

Ultimate strength=1000×106 (224.809×10−3 lbf)(3.2808 ft)2=(1000×106)(224.809×10−3)3.28082 lbfft2=20885947.46 lbfft2 (50)

Substitute the unit 12 in. for 1 ft in equation (50).

Ultimate strength=20885947.46 lbf(12 in.)2=20885947.46122 lbfin.2=145041.302 lbfin.2 (51)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (51).

Ultimate strength=145041.302×11000 ksi=145.0 ksi (52)

For Steel-Tool:

Ultimate strength=900 MPa=900×106 Pa (53)

Substitute the unit Nm2 for Pa in equation (53).

Ultimate strength=900×106 Nm2 (54)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (54).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (55)

Substitute the unit 12 in. for 1 ft in equation (55).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (56)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (56).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (57)

For Steel-Structural Steel:

Ultimate strength=340 MPa=340×106 Pa (58)

Substitute the unit Nm2 for Pa in equation (58).

Ultimate strength=340×106 Nm2 (59)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (59).

Ultimate strength=340×106 (224.809×10−3 lbf)(3.2808 ft)2=(340×106)(224.809×10−3)3.28082 lbfft2=7101222.137 lbfft2 (60)

Substitute the unit 12 in. for 1 ft in equation (60).

Ultimate strength=7101222.137 lbf(12 in.)2=7101222.137122 lbfin.2=49314.043 lbfin.2 (61)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (61).

Ultimate strength=49314.043×11000 ksi=49.3 ksi (62)

For Steel-Structural Steel:

Ultimate strength=830 MPa=830×106 Pa (63)

Substitute the unit Nm2 for Pa in equation (63).

Ultimate strength=830×106 Nm2 (64)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (64).

Ultimate strength=830×106 (224.809×10−3 lbf)(3.2808 ft)2=(830×106)(224.809×10−3)3.28082 lbfft2=17335336.39 lbfft2 (65)

Substitute the unit 12 in. for 1 ft in equation (65).

Ultimate strength=17335336.39 lbf(12 in.)2=17335336.39122 lbfin.2=120384.281 lbfin.2 (66)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (66).

Ultimate strength=120384.281×11000 ksi=120.3 ksi (67)

For Steel-Titanium alloys:

Ultimate strength=900 MPa=900×106 Pa (68)

Substitute the unit Nm2 for Pa in equation (68).

Ultimate strength=900×106 Nm2 (69)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (69).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (70)

Substitute the unit 12 in. for 1 ft in equation (70).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (71)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (71).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (72)

For Steel-Titanium alloys:

Ultimate strength=1200 MPa=1200×106 Pa (73)

Substitute the unit Nm2 for Pa in equation (73).

Ultimate strength=1200×106 Nm2 (74)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (74).

Ultimate strength=1200×106 (224.809×10−3 lbf)(3.2808 ft)2=(1200×106)(224.809×10−3)3.28082 lbfft2=25063136.96 lbfft2 (75)

Substitute the unit 12 in. for 1 ft in equation (75).

Ultimate strength=25063136.96 lbf(12 in.)2=25063136.96122 lbfin.2=174049.562 lbfin.2 (76)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (76).

Ultimate strength=174049.562×11000 ksi=174.0 ksi (77)

Case 4:

For Wood (Bending)-Douglas fir:

Ultimate strength=50 MPa=50×106 Pa (78)

Substitute the unit Nm2 for Pa in equation (78).

Ultimate strength=50×106 Nm2 (79)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (79).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (80)

Substitute the unit 12 in. for 1 ft in equation (80).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (81)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (81).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (82)

For Wood (Bending)-Douglas fir:

Ultimate strength=80 MPa=80×106 Pa (83)

Substitute the unit Nm2 for Pa in equation (83).

Ultimate strength=80×106 Nm2 (84)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (84).

Ultimate strength=80×106 (224.809×10−3 lbf)(3.2808 ft)2=(80×106)(224.809×10−3)3.28082 lbfft2=1670875.797 lbfft2 (85)

Substitute the unit 12 in. for 1 ft in equation (85).

Ultimate strength=1670875.797 lbf(12 in.)2=1670875.797122 lbfin.2=11603.304 lbfin.2 (86)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (86).

Ultimate strength=11603.304×11000 ksi=11.6 ksi (87)

For Wood (Bending)-Oak:

Ultimate strength=50 MPa=50×106 Pa (88)

Substitute the unit Nm2 for Pa in equation (88).

Ultimate strength=50×106 Nm2 (89)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (89).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (90)

Substitute the unit 12 in. for 1 ft in equation (90).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (91)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (91).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (92)

For Wood (Bending)-Oak:

Ultimate strength=100 MPa=100×106 Pa (93)

Substitute the unit Nm2 for Pa in equation (93).

Ultimate strength=100×106 Nm2 (94)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (94).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (95)

Substitute the unit 12 in. for 1 ft in equation (95).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (96)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (96).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (97)

For Wood (Bending)-Southern pine:

Ultimate strength=50 MPa=50×106 Pa (98)

Substitute the unit Nm2 for Pa in equation (98).

Ultimate strength=50×106 Nm2 (99)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (99).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (100)

Substitute the unit 12 in. for 1 ft in equation (100).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (101)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (101).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (102)

For Wood (Bending)-Southern pine;

Ultimate strength=100 MPa=100×106 Pa (103)

Substitute the unit Nm2 for Pa in equation (103).

Ultimate strength=100×106 Nm2 (104)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (104).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (105)

Substitute the unit 12 in. for 1 ft in equation (105).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (106)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (106).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (107)

Thus, the conversion for the strength of selected materials from MPa to ksi is tabulated in Table 1.

Table 1

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Conclusion:

Hence, the conversion for the strength of selected materials from MPa to ksi has been explained.

Answer 7

Chapter 6, Problem 35P

To determine

Convert the strength of selected materials from MPa to ksi.

Answer 8

Expert Solution & Answer

Answer to Problem 35P

The conversion for the strength of selected materials given in accompanying table from MPa to ksi as follows:

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

Explanation of Solution

Given data:

Refer to Problem 6.35 in textbook for the accompanying table.

1 ksi=1000 lbfin.2 (1)

Formula used:

Convert N to lbf,

1 N=224.809×10−3 lbf

Convert meter to foot,

1 m=3.2808 ft

Convert foot to inches,

1 ft=12 in.

Calculation:

Rearrange the equation (1) for conversion of unit as follows,

1 lbfin.2=11000 ksi (2)

Case 1:

For Aluminum alloys:

Ultimate strength=100 MPa=100×106 Pa (3)

Substitute the unit Nm2 for Pa in equation (3).

Ultimate strength=100×106 Nm2 (4)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (4).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (5)

Substitute the unit 12 in. for 1 ft in equation (5).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (6)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (6).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (7)

For Aluminum alloys:

Ultimate strength=550 MPa=550×106 Pa (8)

Substitute the unit Nm2 for Pa in equation (8).

Ultimate strength=550×106 Nm2 (9)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (9).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (10)

Substitute the unit 12 in. for 1 ft in equation (10).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (11)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (11).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (12)

Case 2:

For Concrete (compression):

Ultimate strength=10 MPa=10×106 Pa (13)

Substitute the unit Nm2 for Pa in equation (13).

Ultimate strength=10×106 Nm2 (14)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (14).

Ultimate strength=10×106 (224.809×10−3 lbf)(3.2808 ft)2=(10×106)(224.809×10−3)3.28082 lbfft2=208859.475 lbfft2 (15)

Substitute the unit 12 in. for 1 ft in equation (15).

Ultimate strength=208859.475 lbf(12 in.)2=208859.475122 lbfin.2=1450.413 lbfin.2 (16)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (16).

Ultimate strength=1450.413×11000 ksi=1.4 ksi (17)

For Concrete (compression):

Ultimate strength=70 MPa=70×106 Pa (18)

Substitute the unit Nm2 for Pa in equation (18).

Ultimate strength=70×106 Nm2 (19)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (19).

Ultimate strength=70×106 (224.809×10−3 lbf)(3.2808 ft)2=(70×106)(224.809×10−3)3.28082 lbfft2=1462016.322 lbfft2 (20)

Substitute the unit 12 in. for 1 ft in equation (20).

Ultimate strength=1462016.322 lbf(12 in.)2=1462016.322122 lbfin.2=10152.89 lbfin.2 (21)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (21).

Ultimate strength=10152.89×11000 ksi=10.1 ksi (22)

Case 3:

For Steel-Machine:

Ultimate strength=550 MPa=550×106 Pa (23)

Substitute the unit Nm2 for Pa in equation (23).

Ultimate strength=550×106 Nm2 (24)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (24).

Ultimate strength=550×106 (224.809×10−3 lbf)(3.2808 ft)2=(550×106)(224.809×10−3)3.28082 lbfft2=11487271.1 lbfft2 (25)

Substitute the unit 12 in. for 1 ft in equation (25).

Ultimate strength=11487271.1 lbf(12 in.)2=11487271.1122 lbfin.2=79772.716 lbfin.2 (26)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (26).

Ultimate strength=79772.716×11000 ksi=79.7 ksi (27)

For Steel-Machine:

Ultimate strength=860 MPa=860×106 Pa (28)

Substitute the unit Nm2 for Pa in equation (28).

Ultimate strength=860×106 Nm2 (29)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (29).

Ultimate strength=860×106 (224.809×10−3 lbf)(3.2808 ft)2=(860×106)(224.809×10−3)3.28082 lbfft2=17961914.82 lbfft2 (30)

Substitute the unit 12 in. for 1 ft in equation (30).

Ultimate strength=17961914.82 lbf(12 in.)2=17961914.82122 lbfin.2=124735.519 lbfin.2 (31)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (31).

Ultimate strength=124735.519×11000 ksi=124.7 ksi (32)

For Steel-Spring:

Ultimate strength=700 MPa=700×106 Pa (33)

Substitute the unit Nm2 for Pa in equation (33).

Ultimate strength=700×106 Nm2 (34)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (34).

Ultimate strength=700×106 (224.809×10−3 lbf)(3.2808 ft)2=(700×106)(224.809×10−3)3.28082 lbfft2=14620163.22 lbfft2 (35)

Substitute the unit 12 in. for 1 ft in equation (35).

Ultimate strength=14620163.22 lbf(12 in.)2=14620163.22122 lbfin.2=101528.9113 lbfin.2 (36)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (36).

Ultimate strength=101528.9113×11000 ksi=101.5 ksi (37)

For Steel-Spring:

Ultimate strength=1900 MPa=1900×106 Pa (38)

Substitute the unit Nm2 for Pa in equation (38).

Ultimate strength=1900×106 Nm2 (39)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (39).

Ultimate strength=1900×106 (224.809×10−3 lbf)(3.2808 ft)2=(1900×106)(224.809×10−3)3.28082 lbfft2=39683300.18 lbfft2 (40)

Substitute the unit 12 in. for 1 ft in equation (40).

Ultimate strength=39683300.18 lbf(12 in.)2=39683300.18122 lbfin.2=275578.474 lbfin.2 (41)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (41).

Ultimate strength=275578.474×11000 ksi=275.5 ksi (42)

For Steel-Stainless:

Ultimate strength=400 MPa=400×106 Pa (43)

Substitute the unit Nm2 for Pa in equation (43).

Ultimate strength=400×106 Nm2 (44)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (44).

Ultimate strength=400×106 (224.809×10−3 lbf)(3.2808 ft)2=(400×106)(224.809×10−3)3.28082 lbfft2=8354378.985 lbfft2 (45)

Substitute the unit 12 in. for 1 ft in equation (45).

Ultimate strength=8354378.985 lbf(12 in.)2=8354378.985122 lbfin.2=58016.521 lbfin.2 (46)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (46).

Ultimate strength=58016.521×11000 ksi=58.0 ksi (47)

For Steel-Stainless:

Ultimate strength=1000 MPa=1000×106 Pa (48)

Substitute the unit Nm2 for Pa in equation (48).

Ultimate strength=1000×106 Nm2 (49)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (49).

Ultimate strength=1000×106 (224.809×10−3 lbf)(3.2808 ft)2=(1000×106)(224.809×10−3)3.28082 lbfft2=20885947.46 lbfft2 (50)

Substitute the unit 12 in. for 1 ft in equation (50).

Ultimate strength=20885947.46 lbf(12 in.)2=20885947.46122 lbfin.2=145041.302 lbfin.2 (51)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (51).

Ultimate strength=145041.302×11000 ksi=145.0 ksi (52)

For Steel-Tool:

Ultimate strength=900 MPa=900×106 Pa (53)

Substitute the unit Nm2 for Pa in equation (53).

Ultimate strength=900×106 Nm2 (54)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (54).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (55)

Substitute the unit 12 in. for 1 ft in equation (55).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (56)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (56).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (57)

For Steel-Structural Steel:

Ultimate strength=340 MPa=340×106 Pa (58)

Substitute the unit Nm2 for Pa in equation (58).

Ultimate strength=340×106 Nm2 (59)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (59).

Ultimate strength=340×106 (224.809×10−3 lbf)(3.2808 ft)2=(340×106)(224.809×10−3)3.28082 lbfft2=7101222.137 lbfft2 (60)

Substitute the unit 12 in. for 1 ft in equation (60).

Ultimate strength=7101222.137 lbf(12 in.)2=7101222.137122 lbfin.2=49314.043 lbfin.2 (61)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (61).

Ultimate strength=49314.043×11000 ksi=49.3 ksi (62)

For Steel-Structural Steel:

Ultimate strength=830 MPa=830×106 Pa (63)

Substitute the unit Nm2 for Pa in equation (63).

Ultimate strength=830×106 Nm2 (64)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (64).

Ultimate strength=830×106 (224.809×10−3 lbf)(3.2808 ft)2=(830×106)(224.809×10−3)3.28082 lbfft2=17335336.39 lbfft2 (65)

Substitute the unit 12 in. for 1 ft in equation (65).

Ultimate strength=17335336.39 lbf(12 in.)2=17335336.39122 lbfin.2=120384.281 lbfin.2 (66)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (66).

Ultimate strength=120384.281×11000 ksi=120.3 ksi (67)

For Steel-Titanium alloys:

Ultimate strength=900 MPa=900×106 Pa (68)

Substitute the unit Nm2 for Pa in equation (68).

Ultimate strength=900×106 Nm2 (69)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (69).

Ultimate strength=900×106 (224.809×10−3 lbf)(3.2808 ft)2=(900×106)(224.809×10−3)3.28082 lbfft2=18797352.72 lbfft2 (70)

Substitute the unit 12 in. for 1 ft in equation (70).

Ultimate strength=18797352.72 lbf(12 in.)2=18797352.72122 lbfin.2=130537.172 lbfin.2 (71)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (71).

Ultimate strength=130537.172×11000 ksi=130.5 ksi (72)

For Steel-Titanium alloys:

Ultimate strength=1200 MPa=1200×106 Pa (73)

Substitute the unit Nm2 for Pa in equation (73).

Ultimate strength=1200×106 Nm2 (74)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (74).

Ultimate strength=1200×106 (224.809×10−3 lbf)(3.2808 ft)2=(1200×106)(224.809×10−3)3.28082 lbfft2=25063136.96 lbfft2 (75)

Substitute the unit 12 in. for 1 ft in equation (75).

Ultimate strength=25063136.96 lbf(12 in.)2=25063136.96122 lbfin.2=174049.562 lbfin.2 (76)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (76).

Ultimate strength=174049.562×11000 ksi=174.0 ksi (77)

Case 4:

For Wood (Bending)-Douglas fir:

Ultimate strength=50 MPa=50×106 Pa (78)

Substitute the unit Nm2 for Pa in equation (78).

Ultimate strength=50×106 Nm2 (79)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (79).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (80)

Substitute the unit 12 in. for 1 ft in equation (80).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (81)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (81).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (82)

For Wood (Bending)-Douglas fir:

Ultimate strength=80 MPa=80×106 Pa (83)

Substitute the unit Nm2 for Pa in equation (83).

Ultimate strength=80×106 Nm2 (84)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (84).

Ultimate strength=80×106 (224.809×10−3 lbf)(3.2808 ft)2=(80×106)(224.809×10−3)3.28082 lbfft2=1670875.797 lbfft2 (85)

Substitute the unit 12 in. for 1 ft in equation (85).

Ultimate strength=1670875.797 lbf(12 in.)2=1670875.797122 lbfin.2=11603.304 lbfin.2 (86)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (86).

Ultimate strength=11603.304×11000 ksi=11.6 ksi (87)

For Wood (Bending)-Oak:

Ultimate strength=50 MPa=50×106 Pa (88)

Substitute the unit Nm2 for Pa in equation (88).

Ultimate strength=50×106 Nm2 (89)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (89).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (90)

Substitute the unit 12 in. for 1 ft in equation (90).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (91)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (91).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (92)

For Wood (Bending)-Oak:

Ultimate strength=100 MPa=100×106 Pa (93)

Substitute the unit Nm2 for Pa in equation (93).

Ultimate strength=100×106 Nm2 (94)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (94).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (95)

Substitute the unit 12 in. for 1 ft in equation (95).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (96)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (96).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (97)

For Wood (Bending)-Southern pine:

Ultimate strength=50 MPa=50×106 Pa (98)

Substitute the unit Nm2 for Pa in equation (98).

Ultimate strength=50×106 Nm2 (99)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (99).

Ultimate strength=50×106 (224.809×10−3 lbf)(3.2808 ft)2=(50×106)(224.809×10−3)3.28082 lbfft2=1044297.373 lbfft2 (100)

Substitute the unit 12 in. for 1 ft in equation (100).

Ultimate strength=1044297.373 lbf(12 in.)2=1044297.373122 lbfin.2=7252.065 lbfin.2 (101)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (101).

Ultimate strength=7252.065×11000 ksi=7.2 ksi (102)

For Wood (Bending)-Southern pine;

Ultimate strength=100 MPa=100×106 Pa (103)

Substitute the unit Nm2 for Pa in equation (103).

Ultimate strength=100×106 Nm2 (104)

Substitute the units 224.809×10−3 lbf for 1 N and 3.2808 ft for 1 m in equation (104).

Ultimate strength=100×106 (224.809×10−3 lbf)(3.2808 ft)2=(100×106)(224.809×10−3)3.28082 lbfft2=2088594.746 lbfft2 (105)

Substitute the unit 12 in. for 1 ft in equation (105).

Ultimate strength=2088594.746 lbf(12 in.)2=2088594.746122 lbfin.2=14504.13 lbfin.2 (106)

Substitute the unit 11000 ksi for 1 lbfin.2 in equation (106).

Ultimate strength=14504.13×11000 ksi=14.5 ksi (107)

Thus, the conversion for the strength of selected materials from MPa to ksi is tabulated in Table 1.

Table 1

Material	Ultimate strength (MPa)	Ultimate strength (ksi)
Aluminum alloys	100−550	14.5−79.7
Concrete (compression)	10−70	1.4−10.1
Stee1
Machine	550−860	79.7−124.7
Spring	700−1,900	101.5−275.5
Stainless	400−1,000	58.0−145.0
Tool	900	130.5
Structural Steel	340−830	49.3−120.3
Titanium alloys	900−1,200	130.5−174.0
Wood (Bending)
Douglas fir	50−80	7.2−11.6
Oak	50−100	7.2−14.5
Southern pine	50−100	7.2−14.5