The crate of mass m is supported on a cart of negligible mass as shown in (Figure 1). Figure Part A 1 of 1 Determine the maximum force P that can be applied a distanced from the cart bottom without causing the crate to tip on the cart. Express your answer in terms of some, all, or none of the variables b, d, h, m, and the acceleration due to gravity g.
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I know I am missing somthing from the fourmula I am comming up with can you show me what the correct fourmula is sapposed to look like?
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- The coefficient of rolling resistance between the 30-kg lawn roller and the ground is r=0.1. (a) Determine the force P required to pull the roller at a constant speed. (b) What force P would be needed to push the roller at a constant speed?A small block with mass mm slides without friction on the inside of a vertical circular track that has radius R. What minimum speed must the block have at the bottom of its path if it is not to fall off the track at the top of its path? Express answer in terms of some or all of the variables m, R, and acceleration due to gravity g.Determine the time required that the elevator travels at any instant at a distance of 8 meters. The weight of the elevator is 10,000 N moving downward from rest until its velocity is 15 m / sec. (sec.) 2. In Problem 1, determine the force exerted in the cable to support the elevator. (kN)
- A block of mass 4m can move without friction on a horizontal table. The block is attached to another block of mass m by a string that passes over a frictionless pulley. If the masses of the string and the pulley are negligible, what is the magnitude of the acceleration of the descending block?The lower block of mass m2 = 3.2 kg is pulled on by a rope with a tension force of 28 N. The upper block has mass m1 = 1.8 kg. The coefficient of kinetic friction between the lower block and the surface is 0.32. The coefficient of kinetic friction between the lower block and the upper block is also 0.32. What is the acceleration of the 3.2 kg block?NOTE: Please answer problem #2. Prob#1: Determine the time required that the elevator travels at any instant at a distance of 8 meters. The weight of the elevator is 10,000 N moving downward from rest until its velocity is 15 m / sec. (sec.) Please answer this question only: Prob#2: In Problem 1, determine the force exerted in the cable to support the elevator. (kN)
- The roller-coaster car depicted in Figure Q3 has an empty mass of 700 kg. Additionally, the passenger inside has a mass of 75 kg. The car is released from rest at the top of the hill at A. Friction, mass of the wheels and the size of the car can be neglected. (a) Determine the minimum height of the hill crest (h) so that the car travels around inside of the loop without leaving the track. (b) Determine the maximum constant braking force which may be applied at B so that the car stops on the ground immediately after exiting the loop. (c) If the car is released from a different hill crest, with height 2.5h, how much is the car speed just before entering the loop?By using a forked rod, a smooth cylinder C having a mass of 0.5 kg is forced to move along the vertical slotted path (r = 0.4 θ) m, where θ is in radians. If the angular position of the arm is θ = (0.3 t3 ) rad, where t is in seconds. The cylinder is in contact with only one edge of the rod and slot at any instant. Find "the force of the rod on the cylinder at the instant t=2s" Find "the normal force of the slot at the instant t=2s" Find the "radius of curvature at t=2s" Find the "ψ angle at t=2s"In a Porter governor, the mass of the central load is 18 kg and the mass of each ball is 2 kg. The toparms are 250 mm while the bottom arms are each 300 mm long. The friction of the sleeve is 14 N. Ifthe top arms make 45° with the axis of rotation in the equilibrium position, find the range of speed ofthe governor in that position.
- Forces and Acceleration please answer in full solutionDetermine the acceleration of the system and the tension in each cable. The inclined plane is smooth and the coefficient of kinetic friction between the horizontal surface and the block C is k = 0.2For a technology project, a student has built a vehicle, of total mass 6.00 kg, that moves itself. As shown, it runs on four light wheels. A reel is attached to one of the axles, and a cord originally wound on the reel goes up over a pulley attached to the vehicle to support an elevated load. After the vehicle is released from rest, the load descends very slowly, unwinding the cord to turn the axle and make the vehicle move forward (to the left as shown). Friction is negligible in the pulley and axle bearings. The wheels do not slip on the floor. The reel has been constructed with a conical shape so that the load descends at a constant low speed while the vehicle moves horizontally across the floor with constant acceleration, reaching a final velocity of 3.00î m/s. (a) Does the floor impart impulse to the vehicle? If so, how much? (b) Does the floor do work on the vehicle? If so, how much? (c) Does it make sense to say that the final momentum of the vehicle came from the floor? If…Two blocks of equal masses ma=mb=m, connectedtogether with a massless cord of fixed length, slidedown an inclined plane. The coefficient of kineticfriction between block A and the inclined surface isµA=µ and the coefficient of kinetic friction betweenblock A and inclined surface is µB=2µ.a- Draw free body diagram for each block.b- Find the acceleration of blocks in terms of m, µand q.c- Find the tension in the cord in terms of abovementioned parameters.