Solving Newton's 2nd Law Problems: Blocks & Crate

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Homework Help Overview

The discussion revolves around problems related to Newton's 2nd Law, specifically involving two blocks on a frictionless table and a crate being dragged across a factory floor. Participants are exploring the application of force, mass, and acceleration in these contexts.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster attempts to set up equations using F=m*a but expresses uncertainty about the correct approach for both problems. They question how to account for forces acting on the smaller block and the effects of the angle of the rope in the second problem.

Discussion Status

Some participants suggest drawing free-body diagrams to clarify the forces acting on each block, while others emphasize the importance of understanding the components of the applied forces. There is an ongoing exploration of how to correctly apply Newton's second law in these scenarios.

Contextual Notes

Participants are working under the constraints of homework assignments, which may limit the information they can share or the methods they can use. There is a specific focus on understanding the differences in force calculations based on the direction of applied forces.

Miagi
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Hi,
I'm having trouble with these problems dealing with Newton's 2nd Law

1] Two blocks are in contact on a frictionless table. A horizontal force is applied to the larger block, as shown in Fig. 5-50. (a) If m1 = 2.0 kg, m2 = 1.4 kg, and F = 2.7 N, find the magnitude of the force between the two blocks. (b) Assume instead that a force of the same magnitude F is applied to the smaller block but in the opposite direction, and calculate the magnitude of the force between the blocks. (Why is the value calculated in (b) not the same as that calculated in (a)?)

So I have no idea how to setup the F=m*a for this problem. I think I need to find another force for the smaller block, but I'm not sure how. Can someone help me.


2] A worker drags a crate across a factory floor by pulling on a rope tied to the crate. The worker exerts a force of magnitude F = 440 N on the rope, which is inclined at angle θ = 42° to the horizontal, and the floor exerts a horizontal force of magnitude f = 110 N that opposes the motion. Calculate the magnitude of the acceleration of the crate if (a) its mass is 370 kg and (b) its weight is 370 N.

For this problem. I tried setting up the F=m*a.
440 - 110 - m_1*g*sin(theta). I got m_1*g*sin(theta) because since it is at an angle, the gravitational for is not directly opposite of the Normal force.
Well I tried this setup but doesn't seem to give me the correct answer.
Can someone help?

Thanks
 
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Miagi said:
Hi,
I'm having trouble with these problems dealing with Newton's 2nd Law

1] Two blocks are in contact on a frictionless table. A horizontal force is applied to the larger block, as shown in Fig. 5-50. (a) If m1 = 2.0 kg, m2 = 1.4 kg, and F = 2.7 N, find the magnitude of the force between the two blocks. (b) Assume instead that a force of the same magnitude F is applied to the smaller block but in the opposite direction, and calculate the magnitude of the force between the blocks. (Why is the value calculated in (b) not the same as that calculated in (a)?)

So I have no idea how to setup the F=m*a for this problem. I think I need to find another force for the smaller block, but I'm not sure how. Can someone help me.


Please use the TEMPLATE provided for homework problems from now on (the one you deleted when you typed your post). What have you done so far on this problem?

I would recommend starting by drawing a free-body diagram for each block, indicating all of the relevant forces. This will help you figure out what's going on for each individual block.

You know that the acceleration of the blocks has to be the same, and you can figure out what it is by applying Newton's second law to the combined mass of the two blocks.
 
As cepheid recommended , draw a free-body diagram !
 
For 2) the (frictional) force exerted by the floor is given independent of the angle of the rope. The force the worker applies on the rope is given at an angle to the floor. Only part of the force the worker is exerting is used to move the box horizontally. What fraction of the worker's total force is applied horizontally?
 
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