How Do Forces F1 and F2 Affect the Speed of a Slider Block?

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The discussion revolves around calculating the speed of a 40 kg slider block affected by forces F1 and F2 at t = 6 seconds. The initial speed is 1.5 m/s, and the user applies the equation of motion, incorporating the area under the force-time graph to determine the final speed. Initial calculations suggest a final speed of 8.5 m/s, but adjustments are needed due to the directional impact of the forces and the mechanics of the pulley system. After considering these factors, the corrected final speed of the block is determined to be 12 m/s. The conversation emphasizes the importance of correctly interpreting forces as vectors in such calculations.
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Question: The 40 kg slider block is moving to the right with a speed of 1.5 m/s when it is acted upon by the forces F1 and F2. If these loadings vary as shown (in the attachment called graph), determine the speed of the block at t =6s. Neglect friction and the mass of the pulleys and cords.

The graph doesn't really look like I drew it but you can get the picture (I hope).

This is what I did so far:

Equation: mV1 + summation (integral of) F * dt = mV2

So I calculated the area under each part of the graph and added them together like so

40*(1.5) + 30*(4-0) + 10*(6-4) + 10*(2-0) + 20*(4-2) + 40*(6-4) = 40V2

340 = 40V2
V2 = 8.5 m/s

Is this right?
 

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Here's the graph.
 

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Well, F1 acts in the opposite direction of F2 so one of them needs to get a minus sign in your calculations. The graph shows the forces as scalars (i.e it only tells you their magnitutde), not as vectors. Also, if the right cord is pulled by F1, then the force on the block is actually 4 times F1, because of the pulley system.
 
Ohhhhhhhhhh! Thank-you. I get it now. The answer is 12 m/s.
 

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