File Edit View Help Problem: 25 Do not round intemediate answers. Give your final answer(s) to...
The wheel consists of a 2.5-kg rim of radius r = 215 mm with hub and spokes of negligible mass. The wheel is mounted on the 3.0-kg yoke OA with mass center at G and with a radius of gyration about 0 of 350 mm. If the assembly is released from rest in the horizontal position shown and if the wheel rolls on the circular surface without slipping, compute the velocity of point A when it reaches A'. Assume d...
The wheel consists of a 2.6-kg rim of 420-mm radius with hub and spokes of negligible mass. The wheel is mounted on the 3.7-kg yoke OA with mass center at G and with a radius of gyration about O of 495 mm. If the assembly is released from rest in the horizontal position shown and if the wheel rolls on the circular surface without slipping, compute the velocity of point A when it reaches A'. Answer: vA = m/s 420...
hle Edit View Help Problem: 21(of 21) Do not round intermediate answers. Give your final answer(s) to three decimal places. Check your units. The wheel slips as it rolls m the same direction as point O If vo f /sec and if the magnitude of the velocity ofA with respect to B is 1 ft/sec, locate the instantaneous center C of zero velocity and find the magnitude of the velocity of point P. ft/sec 1"
please show all steps Fle Edit View Help Problem: 14 (of 29) Do not round interm Do not round intemediate answers. Give your final answer) to three decimal places. Check your units. The 13-m slender beam has a mass of 45 kg and is released from rest in the horizontal position with 0-0.If the static friction between the fixed support at O and the beam is 0.1, deternine the angle 0 at which slipping first occurs at O Does the...
a= 797.5 mm r= 735.5 mm b= 1476 mm Note: For all problems, solution approach must be given. Refer the data sheet for the values of variables) r mm Q1) Mass of wheel A is 4 kg and is fitted on the arm AO which has a mass of 3kg. The mass centre of the arm is G. Radius of gyration of the arm about O is 0.35 m. The assembly is released from rest in the horizontal position and...
File Edit View Help Problom 15 (of 20) Do not round intermediate answers. Give your final answer(s) to three decimal places. Check your units The uniform square steel plate has a mass of 13 kg and is resting on a smooth horizontal surface in the x-y plane. If a force P- 100 N is applied in the x-y plane to one cdmer in the direction shown, determine the magnitude of the initial acceleration of comer A. Hint: At the initial...
could you show how the moment at point D effects the shear-moment diagram please? Chapter 12 File Edit View Help Problem 2 Do not round intermediate answers. Give your final answer(s) to three decimal places. Check your units (of 20) aw the shear and bending-moment diagrams for the beam and loading shown, and determine the maximum value (inchuding the sign) ent is (a) of the shear, and b) of the bending moment I n ben V (max)- 12.778 M (max)...
Please answer the following question clearly < Problem Assignment No. 7 Kinetic Energy 1 of 25 Part A- Kinetic Energy of a Pulley and Weight System Learning Goal: To understand the kinetic energy of a rigid body undergoing translational motion, rotation about a fixed axis, or general motion in the plane. No c Consider the pulley and weight system shown in the figure. (Figure 2) The pulley has mass 14.0 kg, outer radius R -190 mm, inner radius Ri- 140...
Chapter 6 File Edit View Help Problem: 8 (of 30) Do not round intermediate answers. Give your final answer(s) to three decimal places. Check your units. Determine the maximum counterweight W for which the loaded 4600-lbs coal car will not overturn about the rear wheels B. Neglect the mass of all pulleys and wheels. (Note that the tension in the cable at C is not 21.) W = Check Answer for this problem Close
Problem: 13 . (of 21) Do not round intermediate answers. Give your final answer(s) to three decimal places. Check your units. For the instant represented. comer A of the rectangular plate has a velocity va=4.1 m/sec and the plate has a clockwise angular velocity 0= 15 rad/sec. Determine the magnitude of the corresponding velocity of point B. Hint: Use instant centers. v of B = 1 m/sec | 180 mm 240 mm