3. A 6.0 kg block rests in static equilibrium on a 28° incline. It is connected o a spring (k 180 N/m) which is currently streteched The coefficients of friction between the block and the incline are u, = 0.80 and u= 0.65. elleeeeeee What is the maximum distance that the spring can be stretched which allows the block to remain in equilibrium? Be sure to draw all of the forces acting on the block in the diagrar above. Show transcribed image text A 6.0 kg block rests in static equilibrium on a 28 degree incline. It is connected to a spring (k= 180 N/m) which is currently stretched. The coefficients of friction between the block and the incline are mus = 0.80 and muk=0.65. What is the maximum distance that the spring can be stretched which allows the block to remain in equilibrium? Be sure to draw all of the forces acting on the block in the diagram above.

3. A 6.0 kg block rests in static equilibrium on a 28° incline. It is connected o a spring (k 180 N/m) which is currently streteched The coefficients of friction between the block and the incline are u, = 0.80 and u= 0.65. elleeeeeee What is the maximum distance that the spring can be stretched which allows the block to remain in equilibrium? Be sure to draw all of the forces acting on the block in the diagrar above. Show transcribed image text A 6.0 kg block rests in static equilibrium on a 28 degree incline. It is connected to a spring (k= 180 N/m) which is currently stretched. The coefficients of friction between the block and the incline are mus = 0.80 and muk=0.65. What is the maximum distance that the spring can be stretched which allows the block to remain in equilibrium? Be sure to draw all of the forces acting on the block in the diagram above.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

A 50.0-kg person jumps onto the floor from a height of 2.7 m. If he lands stiffly with his knee joints compressing by 0.500 cm, calculate the force on the knee joints. a. 145 KN b. 388 KN c. 265 KN d. 436 KN e. 353 KN
Gmail .l ? 9:58 PM 60% X H.W.jpg Determine the tension developed in each cord required for equilibrium of the 20-kg lamp. Determine the maximum mass of the lamp that the cord system can support so that no single cord develops a tension exceeding 400 N. |30° 45° F
ved 161 A single cable is wrapped from the center of pulley A, around pulley B, and around pulley A. This cable is pulled downward at 2 m/s. At what speed does pulley B move upward? V = 1 S L= take a time derivitive 0-2 VAB+ VAC dB C WEIGHT 2 m/s de
2. A two body system is set up on an inclined surface with M = 5 kg and m = 4 kg. The angle is 25 degrees. And the static frictional coefficient is 0.25, and kinetic frictional coefficient is 0.20. i. Find the parallel and perpendicular components of the Mg. ii. Find the static frictional force and kinetic frictional force. iii. Determine which way the system will move, uphill or downhill. iv. Once it starts, find the tension T =? v. Once it starts, find the acceleration, a=?
1. Consider the setup shown below: a block with mass m; sits on a table with friction coefficient u between the table and itself, attached on one side to a spring with stiffness k, and on the other side to a cord with negligible mass that wraps over a frictionless pully and supports a second block with mass m2 that's suspended in the air over the edge of the table. The friction between block 1 and the table is not enough to hold up block 2 so that, when it's released from rest, the spring stretches a distance Ax before the system comes to rest. a. Draw and label a free-body diagram for each block. (Use the gridlines to make sure that the relative lengths of your vector arrows are correct.) k m1 block 1: block 2: m2 b. What is the kinetic friction coefficient between block 1 and the table?
Two masses m,=9 Kg and m,=9 Kg are connected with string and pulled with a force F=25 N that makes an angle of 53° with a smooth horizontal surface as shown in the figure. Find the tension in the string in a unit of Newton. F m2 A. 10.64 B. 7.523 C. None D. 15.05 E. 3.761 O d O O Uodou
A 2.00-kg object B is connected with a string to a 3.00-kgobject A, which is connected with a second string over a massless, frictionless pulley to a 8.00-kg object C. The strings have negligible mass and do not stretch, and the level tabletop is frictionless. Calculate the tension ?1. ?1= N Calculate the tension ?2. ?2= N Calculate the acceleration ? of the system. ?= m/s2
Q 3: of the forces system in the figure below . Determine the resultant moment a bout point o E. 300 N 1 m VP= 40ON Q4: For the forces system in figurel if the resultant mom ent aboul point A is equal to (Zero) find magnit ude of the force p. the A Q= 650 N 0.2 102 ml MA = 0.0 = Z Fd %3D
A light spring having a force constant of 125N/m is used to pull a 7.20kg sled on a horizontal ice rink. The coefficient of kinetic friction between the sled and the ice is 0.200. The sled has an acceleration of 1.80m/s^2. By how much does the spring stretch if it pulls on the sled horizontallly? If the string stretches by the same amount but is pulling the sled at 30 degrees above the horizontal, what is the new acceleration?
Not too sure how to do this one, pls help ASAP thanks!
Work done by friction force