F UBC Engineering Movers are trying to set up an art gallery. They attempt to drag a human-size statue of a soda can with mass m = 110 kg by tying a rope around it. Determine if the movers can drag the statue along the floor without it tipping if the coefficients of static friction and kinetic friction are found to be us = 0.41 and Hk = 0.3, respectively. What is the maximum force the movers can apply without tipping the statue? The can has a height of h = 1.5 m and the rope is tied 1 m off the ground. Assume the statue to be a solid cylinder with radius r = 0.25 m and constant density. Can the statue be dragged without tipping? O No O Yes Frip If the movers can apply the force required for the statue to slip, where is the maximum height they should tie the rope to safely drag the statue? y = m

F UBC Engineering Movers are trying to set up an art gallery. They attempt to drag a human-size statue of a soda can with mass m = 110 kg by tying a rope around it. Determine if the movers can drag the statue along the floor without it tipping if the coefficients of static friction and kinetic friction are found to be us = 0.41 and Hk = 0.3, respectively. What is the maximum force the movers can apply without tipping the statue? The can has a height of h = 1.5 m and the rope is tied 1 m off the ground. Assume the statue to be a solid cylinder with radius r = 0.25 m and constant density. Can the statue be dragged without tipping? O No O Yes Frip If the movers can apply the force required for the statue to slip, where is the maximum height they should tie the rope to safely drag the statue? y = m

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

See similar textbooks

Similar questions

A block with mass (m = 19.5 kg) is pulled with a force (F = 280 N) 0 = 25°. a) Draw a free-body diagram. b) Find the normal force. c) If coefficient of friction between the crate and the surface is uz=0.12, what is the value of the frictional force, fr. d) Find the acceleration. e) What minimum horizontal force is needed to move the block with a constant speed (while keeping the F = 280 N)? F m
Asap
A 100-lb force is pulling a 200-lb block as shown. The coefficient of static friction between the block and the floor is μs = 0.6 and the coefficient of kinetic friction is μk = 0.4. a. What is the friction force between the block and the floor? b. Will the block move?
9. If a load of 60 kN is applied to a rigid bar suspended by 3 wires as shown in the above figure what force will be resisted by each wire? The outside wires are of Al, cross- sectional area 300 mm² and length 4 m. The central wire is steel with area 200 mm² and length 8 m Initially there is no slack in the wires E= 2x105 N/mm² for Steel = 0.667x105 N/mm2 for Aluminum 60 kN Alum, wires Steel wire
Figure 1 shows a 100-kg crate that has a center of gravity at G. The coefficient of static friction at the floor is μ = 0.4. With appropriate calculation, explain: 0.5 m 0.5 m P 1.5 m Figure 1 (a) What will happen when the force P is 400 N. (b) What will happen when the force P is 300 N. A 0.8 m 1.2 m
The wheel loads on a jeep are given in the figure shown. Determine the distance x so that the reaction of the beam at B is twice as great as the reaction at A. 600 lb 200 lb 4' B. 15'
An object weighing 40-kg and is suspended vertically by a rope is pulled aside by a horizontal force F and held so that the rope makes an angle of 30⁰ with the vertical. Find the magnitude of the horizontal force F and the tension T on the rope.
Need answer ASAP. Please be detailed and clear with your solution. IV. The corner of a floating body has a quarter cylinder AB having a length normal to the paper of 3 m 1. Calculate the magnitude of the horizontal component of the force on AB in kN. * 2. Calculate the magnitude of the vertical component of the force on AB in kN. *
A beam is subjected to some couple moments as shown in the figure and parameter table. With counter-clockwise as positive, what is the resultant couple moment? F₁ parameter L₁ L₂ L3 F₁ F₂ Ө L₂ value 4 2 0.75 250 125 75 The resultant moment is F₁ units ft ft ft lb lb F₂ lb-ft F₂ cc 080 BY NO SA 2021 Cathy Zupke
The blocks shown in figure are connected by flexible, inextensible cords passing over frictionless pulleys. At A the coefficients of friction are us = 0.30 and uk = 0.20 while at B they are us = 0.40 and uk = 0.30. Compute the magnitude and direction of the friction force acting on each block
Q2:- The 220-lb crate shown in figure below is being moved by a rope that passes over a smooth pulley. The coefficient of friction between the crate and the floor is 0.28. 1. Assume h = 3.9 ft and determine the force P necessary to produce impending motion. 2. Determine the value of h for which impending motion by slipping and by tipping would occur simultaneously.
The figure shows a rigid bar that is supported by a pin at A and two rods, one made of steel and the other of bronze. Neglecting the weight of the bar, compute the force (in N) in the steel rod caused by the 44063-Nload, using the following data: length of steel = 1.34 m, length of bronze = 2.06 m Area of steel = 566 mm, Area of bronze = 253 mm Modulus of elasticity of steel = 210 Gpa, Modulus of elasticity of bronze = 92 Gpa x = 0.65 m, y = 1.02 m, and z = 0.86 m. Round off the final answer to three decimal places. %3| %3D %3D Bronze Steel