PEARSON ETEXT ENGINEERING MECH & STATS
15th Edition
ISBN: 9780137514724
Author: HIBBELER
Publisher: PEARSON
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The shaft has a square-threaded screw with a lead of 8 mm and a mean radius of 15 mm.
If it is in contact with a plate gear having a mean radius of 30 mm, determine the resisting torque M on the plate gear which can be overcome if a torque of 7 N⋅m is applied to the shaft. The coefficient of static friction at the screw is μB =0.2. Neglect friction of the bearings located at A and B.
3. The pulley has a radius of 3". And fits loosely on the 0.5" diameter shaft. If the loadings acting
on the belt cause the pulley to rotate with constant angular velocity, determine the frictional
force between the shaft and the pulley and compute the coefficient of kinetic friction. The
pulley weighs 18lbs
3 in.
5 lb
5.5 lb
The high strength, square-threaded bolt that holds the three plates together has a nominal diameter of 1 in. The coefficient of friction is us
= 0.36. The mean diameter of the thread is 0.94 in. The lead of the bolt is L = 0.160 in. Neglect
friction between the nut and the washer.
Determine the torque one must apply in in.
Ib to the nut to induce a tension of 47,500 lb. (Enter the magnitude.)
in. · Ib
When that tension is achieved, determine the torque in in. · Ib required to loosen the bolt. (Enter the magnitude.)
in. • Ib
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- The square-threaded screw 0f the C-clamp has a mean diameter of 8 mm and a pitch of 1.6 mm. The coefficient of static friction between the threads is 0.2. If the torque C=1.50Nm is used to tighten the clamp, determine (a) the clamping force; and (b) the torque required to loosen the clamp.arrow_forwardThe single-plate clutch transmits the torque C from the input shaft on the left to the output shaft on the right. Compression springs between the clutch housing and the pressure plate provide the necessary pressure on the friction surface. The splines prevent the clutch plate from rotating relative to the output shaft. If Ri=4 in. and R0=9 in., determine the total force that must be applied to the pressure plate by the springs if the clutch is to transmit a torque of C=56lbft when it is new.arrow_forwardThe block brake consists of a pin-connected lever and friction block at BB. The coefficient of static friction between the wheel and the lever is μsμs = 0.3, and a torque of 5 N⋅mN⋅m is applied to the wheel. Determine if the brake can hold the wheel stationary when the force applied to the lever is (a) PP = 30 NN, (b) PP = 70 NN. Draw the free-body diagram of the wheel. Draw the vectors starting at the black dots. The location and orientation of the vectors.arrow_forward
- I need the answer as soon as possiblearrow_forwardThe light bar is used to support the 50-kg block in its vertical guides. If the coefficient of static friction is 0.30 at the upper end of the bar and 0.40 at the lower end of the bar, find the friction force acting at each end for x = 75 mm. Also find the maximum value of x for which the bar will not slip 50 kg A 300 mmarrow_forwardA collar bearing C is supported by a fixed annular plate. The axial load on the shaft is F = 600 N, and the coefficient of kinetic friction between the collar and the plate is μ = 0.3. The area of contact has an inside diameter of D₁ = 60 mm, and the outside diameter is D₂ = 180 mm. Determine the torque required to rotate the shaft at a constant rate. C F M C F D₁ - D₂ Marrow_forward
- The 2-Mg lathe with mass center at G is positioned with the aid of the 5° steel wedge. Determine the horizontal force P required to remove the wedge if the coefficient of friction for all contacting surfaces is 0.30. GO A В P\ 5° 900 mm 2300 mmarrow_forwardI need the answer quicklyarrow_forwardThe block brake consists of a pin-connected lever and friction block at B. The coefficient of static friction between the wheel and the lever is μs = 0.3, and a torque of 5 N ⋅m is applied to the wheel. Determine if the brake can hold the wheel stationary when the force applied to the lever is (a) P = 30 N, (b) P = 70 N Draw the free-body diagram of the lever.arrow_forward
- The three identical rollers are stacked on a horizontal surface as shown. If the coefficient of static friction µ is the same for all pairs of contacting surfaces, find the minimum value of μs for which the rollers will not slip. - Answer: Us=arrow_forwardThe figure shows a part of a machine used to crush recycled cans. Link ABC is attached to the ground at pin A and link BD is attached to the piston D using also a pin connection. When α=45°, θ=55°, and β=15°, the machine is about to start moving, i.e. impending motion. If the coefficient of static friction and kinetic friction between the piston D and the wall are μs=0.25 and μk=0.2 respectively, find the magnitude of force applied to the cans by the piston for P=200 kN.arrow_forwardDetermine the horizontal force P to start the 400-N wedge moving to the right. The angle of friction for all contact surfaces is o = 20°. WA = 2000 N WB = 400 N 15°arrow_forward
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