Please show your detailed and correct solution to this problem. ASAP! Thank you! LOAD ANALYSIS FOR SPUR GEAR preConsider the pitch circle of a spur gear with the loads acting on the pitch point, as shown in the figure below.Figure 3.15. Spur Gear Load AnalysisFRWWhere, F₁ = tangential or transmitted loadW = resultant loadApplied or Transmitted Torque: TTransmitted Horsepower, Hp==Where, T₁ = torque, in-lbTransmitted Power (S.I.): P = Tow=GIVEN: Figure shownT₁ n63 000=N₂ = 1750 rpm$ = 2002Where, P= transmitted power, kWtorque, kN-mTaF₁F, V33 000F₁ = transmitted load, IbT (2π) N _ πT nq6030P = 2.5 kWm = 2.5 mmOF₁ =Ex. # 5] Pinion 2 in the figure runs at 1 750 rpm and transmits 2.5 kW to idler gear 3. The teeth are cut on the 20° full-depth system andhave a module of m= 2.5 mm. Draw the free body diagram of gear 3 and shows all the forces acting upon it. Determine the forcesacting upon gear 3. The direction of rotation of gear 3, as shown, is counterclockwise.F₁55= radial load ;= pressure angleV = pitch line velocity, ipmN = rpmw = Angular velocity, rad/sOOREQUIRED:CS Draw the frechody diagram of gear 3 and compute the forces acting on it.3

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LOAD ANALYSIS FOR SPUR GEAR Consider the pitch circle of a spur gear with the loads acting on the pitch point, as shown in the figure below. Figure 3.15. Spur Gear Load Analysis FR W Where, F, = tangential or transmitted load W = resultant load Applied or Transmitted Torque: Ta Transmitted Horsepower, Hp: = (1/) F₁ Where, T₁ = torque, in-lb F₁ = transmitted load, Ib Tα (2π)N π πT₁ n 30 60 Tan F₁ V 63 000 33 000 Transmitted Power (S.I.): P = T₁=- Tqw= Where, P= transmitted power, kW Ta torque, kN-m GIVEN: Figure shown N₂ = 1750 rpm $ = 200 P = 2.5 kW m = 2.5 mm Ex. # 5] Pinion 2 in the figure runs at 1 750 rpm and transmits 2.5 kW to idler gear 3. The teeth are cut on the 20° full-depth system and have a module of m= 2.5 mm. Draw the free body diagram of gear 3 and shows all the forces acting upon it. Determine the forces acting upon gear 3. The direction of rotation of gear 3, as shown, is counterclockwise. F₁ FR = radial load ; = pressure angle 55 REQUIRED: CS Draw the free body dianam CamScanner diagram of gear 3 and compute the forces acting on it. V = pitch line velocity, ipm N = rpm w = Angular velocity, rad/s

LOAD ANALYSIS FOR SPUR GEAR Consider the pitch circle of a spur gear with the loads acting on the pitch point, as shown in the figure below. Figure 3.15. Spur Gear Load Analysis FR W Where, F, = tangential or transmitted load W = resultant load Applied or Transmitted Torque: Ta Transmitted Horsepower, Hp: = (1/) F₁ Where, T₁ = torque, in-lb F₁ = transmitted load, Ib Tα (2π)N π πT₁ n 30 60 Tan F₁ V 63 000 33 000 Transmitted Power (S.I.): P = T₁=- Tqw= Where, P= transmitted power, kW Ta torque, kN-m GIVEN: Figure shown N₂ = 1750 rpm $ = 200 P = 2.5 kW m = 2.5 mm Ex. # 5] Pinion 2 in the figure runs at 1 750 rpm and transmits 2.5 kW to idler gear 3. The teeth are cut on the 20° full-depth system and have a module of m= 2.5 mm. Draw the free body diagram of gear 3 and shows all the forces acting upon it. Determine the forces acting upon gear 3. The direction of rotation of gear 3, as shown, is counterclockwise. F₁ FR = radial load ; = pressure angle 55 REQUIRED: CS Draw the free body dianam CamScanner diagram of gear 3 and compute the forces acting on it. V = pitch line velocity, ipm N = rpm w = Angular velocity, rad/s

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Section: Chapter Questions

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Concept explainers

Combined Loading

Any functioning component, such as machine parts, structural members, pressure vessels, and so on, are all under the influence of more than one force. When anybody is under the influence of more than one force such as shear forces, bending moments, axial forces, torsion, and so on, then such body is said to be under combined loading. A very practical example of combined loading is the crankshaft of an internal combustion engine (IC engine). The crankshaft of the IC engine is under high rpm, which is caused due to the torsional forces. Due to the presence of piston, counterbalances, and internal imbalances, the crankshaft experiences lateral forces and due to the rise in temperature, the crankshaft undergoes thermal expansion, which pulls the crankshaft along the axial direction and lateral direction. The presence of unbalanced loads along the periphery of the crankshaft also induces a bending moment.

Question

Please show your detailed and correct solution to this problem. ASAP! Thank you!

LOAD ANALYSIS FOR SPUR GEAR pre
Consider the pitch circle of a spur gear with the loads acting on the pitch point, as shown in the figure below.
Figure 3.15. Spur Gear Load Analysis
FR
W
Where, F₁ = tangential or transmitted load
W = resultant load
Applied or Transmitted Torque: T
Transmitted Horsepower, Hp=
=
Where, T₁ = torque, in-lb
Transmitted Power (S.I.): P = Tow
=
GIVEN: Figure shown
T₁ n
63 000
=
N₂ = 1750 rpm
$ = 200
2
Where, P= transmitted power, kW
torque, kN-m
Ta
F₁
F, V
33 000
F₁ = transmitted load, Ib
T (2π) N _ πT n
q
60
30
P = 2.5 kW
m = 2.5 mm
O
F₁ =
Ex. # 5] Pinion 2 in the figure runs at 1 750 rpm and transmits 2.5 kW to idler gear 3. The teeth are cut on the 20° full-depth system and
have a module of m= 2.5 mm. Draw the free body diagram of gear 3 and shows all the forces acting upon it. Determine the forces
acting upon gear 3. The direction of rotation of gear 3, as shown, is counterclockwise.
F₁
55
= radial load ;
= pressure angle
V = pitch line velocity, ipm
N = rpm
w = Angular velocity, rad/s
O
O
REQUIRED:
CS Draw the frechody diagram of gear 3 and compute the forces acting on it.
3

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