I with hw (my book hasnt came in yet)

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The discussion revolves around solving physics problems involving forces, friction, and acceleration. Participants are working through multiple exercises, including calculating the force of kinetic friction, the acceleration of blocks, and the tension in a string connecting two blocks. Key strategies suggested include using Newton's second law and creating diagrams to visualize forces and coordinate systems. One participant is currently focused on finding the tension in a problem involving two blocks being pulled together. The thread emphasizes the importance of showing work and understanding the concepts rather than simply seeking answers.
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1.A mass m = 20 kg is moving along a surface with coefficient of kinetic friction mk = 0.3.

A)What is the force of kinetic friction on the mass?


2.A wooden block of mass m = 9 kg starts from rest on an inclined plane sloped at an angle q from the horizontal. The block is originally located 5m from the bottom of the plane.

a)If the block, undergoing constant acceleration down the ramp, slides to the bottom in t = 2 s, and q = 30°, what is the magnitude of the kinetic frictional force on the block?

3A block of mass m1 = 2 kg and a block of mass m2 = 3 kg are tied together and are pulled from rest across the floor by a force of Fp = 21 N. The coefficient of friction of the blocks with the floor is µ = 0.13.
a) What is the acceleration of the two blocks?

a = ?m/s2
b) What is the tension in the string between the blocks?

T = N ?

4 A block of mass mblock = 1.9 kg rests on a cart of mass mcart = 3.1 kg, which moves without friction on a horizontal surface. The coefficient of static friction between the block and the cart is µ = 0.76. The cart is accelerating to the right.

a) What is the maximum acceleration such that the block does not slide on the cart?

amax = ? m/s2
b) What is the magnitude of the force on the cart required to provide the acceleration amax?

F = N ?
 
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im on #2 right now
 
still need help tho
 
Well show what you have going, don't know where to help.
 
whats your email, ill send you the graph
 
Just put the graph here using the image function...
 
this is for #3
 

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So how far are you on that nr. 3? The golden rule of all homework forums, no-one is going to solve the problem for you.
Hint: write out Newtons second law for every body involved.
 
  • #10
Oh alright I am on B, the acceleration is 2.94 and i can't find the tension in between.
 
  • #11
2.92
 
  • #12
So you mean you are on exercise 3). For these kind of tension problems there are two powerful tools:
a) Make a good drawing of the setup, put all the forces on the diagram and also add a coordinate axis (in pulley problems you simply bend the axis around the pulley). The axis will give you a clear view on the signs of things.
b) Write out Newtons second law for every body included, then solve the equation system you get.
 

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