M4.16 Determine the increase in length of a steel bar whose length 100 in, if the bar is heated from room temperature of 70°F to 500°F. Use Table 4.1from the book for reference. Round to the nearest 1000th of an inch Table 4.1 Volumetric properties in U.S. customary units for selected engineering materials Coclicient of Thermal Expansion, a Cx10F10 Melting Point, T Density, p g/em Material Metals Aluminum 2.70 (0.098) (13.3) 660 (1220) 24 Copper 8.97 (0.324) 17 1083 (1981) (94) Iron 7.87 (0.284) 12.1 (6.7) 1539 (2802) Lead 11.35 (0.410) 29 (621) (16.1) 327 Magnesium 1.74 (0.063) 26 (144) 650 (1202) Nickel 8.92 (0.322) 13.3 (7.4) (2651) 1455 Steel (0.284) 7.87 12 (6.7) a Tin 7.3 (0.264) 23 (12.7) 232 (449) Titanium 4.51 (0.163) 8.6 (4.7) 1668 (3034) Tungsten 19.30 (0.697) 4.0 (2.2) 3410 (6170) Zinc 7.15 (0.258) 40 (22.2) 420 (787) Ceramics and Silicon Glass 2.5 (0.090) 1.8-9.0 (1.0-5.0) Alumina 3.8 (0.137) 9.0 (5.0) 2072 (3762) Silica 2.66 (0.096) 0.55 (0.31) 1600 (2912) Silicon 2.33 (0.085) 2.6 (1.4) 1414 (2577) Polymers Phenol resins 1.3 (0.047) 60 (33) Nylon Polyethylene I.16 (0042) 100 (55) 260 (500) 0.92 (0.033) 180 (100) 115 (240) Polystyrene 1.05 (0.038) 70 (39) 240 (464) Polyvinylchloride 140 (0.051) 50 (28) 212 (414) Compiled from. 121.131. 141. 15). and other sources Melting tesmperature depends on composition Low-density polyethylene Chemically degrades at high temperanures because it is a thermosetting polymer, ocher polymers listed are thermoplastic
M4.16 Determine the increase in length of a steel bar whose length 100 in, if the bar is heated from room temperature of 70°F to 500°F. Use Table 4.1from the book for reference. Round to the nearest 1000th of an inch Table 4.1 Volumetric properties in U.S. customary units for selected engineering materials Coclicient of Thermal Expansion, a Cx10F10 Melting Point, T Density, p g/em Material Metals Aluminum 2.70 (0.098) (13.3) 660 (1220) 24 Copper 8.97 (0.324) 17 1083 (1981) (94) Iron 7.87 (0.284) 12.1 (6.7) 1539 (2802) Lead 11.35 (0.410) 29 (621) (16.1) 327 Magnesium 1.74 (0.063) 26 (144) 650 (1202) Nickel 8.92 (0.322) 13.3 (7.4) (2651) 1455 Steel (0.284) 7.87 12 (6.7) a Tin 7.3 (0.264) 23 (12.7) 232 (449) Titanium 4.51 (0.163) 8.6 (4.7) 1668 (3034) Tungsten 19.30 (0.697) 4.0 (2.2) 3410 (6170) Zinc 7.15 (0.258) 40 (22.2) 420 (787) Ceramics and Silicon Glass 2.5 (0.090) 1.8-9.0 (1.0-5.0) Alumina 3.8 (0.137) 9.0 (5.0) 2072 (3762) Silica 2.66 (0.096) 0.55 (0.31) 1600 (2912) Silicon 2.33 (0.085) 2.6 (1.4) 1414 (2577) Polymers Phenol resins 1.3 (0.047) 60 (33) Nylon Polyethylene I.16 (0042) 100 (55) 260 (500) 0.92 (0.033) 180 (100) 115 (240) Polystyrene 1.05 (0.038) 70 (39) 240 (464) Polyvinylchloride 140 (0.051) 50 (28) 212 (414) Compiled from. 121.131. 141. 15). and other sources Melting tesmperature depends on composition Low-density polyethylene Chemically degrades at high temperanures because it is a thermosetting polymer, ocher polymers listed are thermoplastic
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
Related questions
Question
![M4.16 Determine the increase in length of a steel bar whose length 100 in, if the bar is heated from
room temperature of 70°F to 500°F. Use Table 4.1from the book for reference. Round to the nearest
1000th of an inch](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fae5712de-4746-4ba5-a688-ed474b665cfb%2Fde2b24d1-b11b-4ab8-9a37-5f80008959dc%2Faget3i.jpeg&w=3840&q=75)
Transcribed Image Text:M4.16 Determine the increase in length of a steel bar whose length 100 in, if the bar is heated from
room temperature of 70°F to 500°F. Use Table 4.1from the book for reference. Round to the nearest
1000th of an inch
![Table 4.1 Volumetric properties in U.S. customary units for selected engineering materials
Coclicient of Thermal
Expansion, a
Cx10F10
Melting Point, T
Density, p
g/em
Material
Metals
Aluminum
2.70
(0.098)
(13.3)
660
(1220)
24
Copper
8.97
(0.324)
17
1083
(1981)
(94)
Iron
7.87
(0.284)
12.1
(6.7)
1539
(2802)
Lead
11.35
(0.410)
29
(621)
(16.1)
327
Magnesium
1.74
(0.063)
26
(144)
650
(1202)
Nickel
8.92
(0.322)
13.3
(7.4)
(2651)
1455
Steel
(0.284)
7.87
12
(6.7)
a
Tin
7.3
(0.264)
23
(12.7)
232
(449)
Titanium
4.51
(0.163)
8.6
(4.7)
1668
(3034)
Tungsten
19.30
(0.697)
4.0
(2.2)
3410
(6170)
Zinc
7.15
(0.258)
40
(22.2)
420
(787)
Ceramics and Silicon
Glass
2.5
(0.090)
1.8-9.0
(1.0-5.0)
Alumina
3.8
(0.137)
9.0
(5.0)
2072
(3762)
Silica
2.66
(0.096)
0.55
(0.31)
1600
(2912)
Silicon
2.33
(0.085)
2.6
(1.4)
1414
(2577)
Polymers
Phenol resins
1.3
(0.047)
60
(33)
Nylon
Polyethylene
I.16
(0042)
100
(55)
260
(500)
0.92
(0.033)
180
(100)
115
(240)
Polystyrene
1.05
(0.038)
70
(39)
240
(464)
Polyvinylchloride
140
(0.051)
50
(28)
212
(414)
Compiled from. 121.131. 141. 15). and other sources
Melting tesmperature depends on composition
Low-density polyethylene
Chemically degrades at high temperanures because it is a thermosetting polymer, ocher polymers listed are thermoplastic](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fae5712de-4746-4ba5-a688-ed474b665cfb%2Fde2b24d1-b11b-4ab8-9a37-5f80008959dc%2Fdk5xj2j.jpeg&w=3840&q=75)
Transcribed Image Text:Table 4.1 Volumetric properties in U.S. customary units for selected engineering materials
Coclicient of Thermal
Expansion, a
Cx10F10
Melting Point, T
Density, p
g/em
Material
Metals
Aluminum
2.70
(0.098)
(13.3)
660
(1220)
24
Copper
8.97
(0.324)
17
1083
(1981)
(94)
Iron
7.87
(0.284)
12.1
(6.7)
1539
(2802)
Lead
11.35
(0.410)
29
(621)
(16.1)
327
Magnesium
1.74
(0.063)
26
(144)
650
(1202)
Nickel
8.92
(0.322)
13.3
(7.4)
(2651)
1455
Steel
(0.284)
7.87
12
(6.7)
a
Tin
7.3
(0.264)
23
(12.7)
232
(449)
Titanium
4.51
(0.163)
8.6
(4.7)
1668
(3034)
Tungsten
19.30
(0.697)
4.0
(2.2)
3410
(6170)
Zinc
7.15
(0.258)
40
(22.2)
420
(787)
Ceramics and Silicon
Glass
2.5
(0.090)
1.8-9.0
(1.0-5.0)
Alumina
3.8
(0.137)
9.0
(5.0)
2072
(3762)
Silica
2.66
(0.096)
0.55
(0.31)
1600
(2912)
Silicon
2.33
(0.085)
2.6
(1.4)
1414
(2577)
Polymers
Phenol resins
1.3
(0.047)
60
(33)
Nylon
Polyethylene
I.16
(0042)
100
(55)
260
(500)
0.92
(0.033)
180
(100)
115
(240)
Polystyrene
1.05
(0.038)
70
(39)
240
(464)
Polyvinylchloride
140
(0.051)
50
(28)
212
(414)
Compiled from. 121.131. 141. 15). and other sources
Melting tesmperature depends on composition
Low-density polyethylene
Chemically degrades at high temperanures because it is a thermosetting polymer, ocher polymers listed are thermoplastic
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