Solving the Puzzle: Acceleration of a 50kg Block

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To solve for the acceleration of a 50kg block sliding on a surface with a coefficient of kinetic friction of 0.60, the applied force of 400 N at a 20° angle must be considered. The normal force is affected by the vertical component of the applied force, leading to a modified equation for friction. The correct equation incorporates both the gravitational force and the vertical component of the applied force, resulting in a new normal force calculation. The revised formula for acceleration is 400N*Cos(20) - [(9.81 m/s^2)(50kg) - (400)(sin(20))](0.60) = (50kg)(a). This adjustment should yield the correct acceleration value.
phizuks
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I'm not sure why I'm not getting this problem right. It seems pretty simple to me, but I guess there might be a trick to it?

Suppose that a 50kg block slides along a horizontal surface where the coefficient of kinetic friction between the block and the surface is uk = 0.60. A force F = 400 N is now applied as shown in the drawing, where the angle of the force above horizontal is 20°.

What is the magnitude of the acceleration of the block?

Isn't the equation just 400N*Cos(20)-(9.81 m/s^2)(50kg)(.60) = (50kg)(a)

I get a = 1.63 m/s^2
The choices the online homework gives are
.54, 2.31, 3.27 (2x the accel i get), 6.78, and 8.11
 
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You need to take into account the increased N, as it now has to deal with both gravity and the y-component of the F. This, of course, increases the force caused by friction.
 
phizuks said:
I'm not sure why I'm not getting this problem right. It seems pretty simple to me, but I guess there might be a trick to it?

Suppose that a 50kg block slides along a horizontal surface where the coefficient of kinetic friction between the block and the surface is uk = 0.60. A force F = 400 N is now applied as shown in the drawing, where the angle of the force above horizontal is 20°.

What is the magnitude of the acceleration of the block?

Isn't the equation just 400N*Cos(20)-(9.81 m/s^2)(50kg)(.60) = (50kg)(a)

I get a = 1.63 m/s^2
The choices the online homework gives are
.54, 2.31, 3.27 (2x the accel i get), 6.78, and 8.11



the normal reaction here will be less than 50*9.8...bcoz the force F has a component in the vertical dir.
N=50*9.8 - 400*sin(20)

so ur eqn shud actually b
400N*Cos(20)-[(9.81 m/s^2)(50kg)-(400)(sin(20))](.60) = (50kg)(a)

i think u shud get the ans frm this.

bye
 

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