Newton's Laws of motion problem

sepah50 · Oct 12, 2010

Homework Statement

A block weighing 70.0 N rests on a plane inclined at 25.0° to the horizontal. A force F is applied to the object at 35.0° to the horizontal, pushing it upward on the plane. The coefficients of static and kinetic friction between the block and the plane are, respectively, 0.333 and 0.156.

What is the minimum value of F that will prevent the block from slipping down the plane?

Homework Equations

\sumF_y= Sum of all Forces = Newton's Second Law

The Attempt at a Solution

So in the beginning I draw the Angles and make a Free Body Diagram. I sum up all the forces which is
\sumF_y = \eta + Fsin(10) - 70cos(25) = ma_y

ma_y is 0 since block is not moving away from the plane

what I get then is \eta= .173648F - 63.4415

After this point I know I have to find F_smax which equals \mu_s\eta. After this part I get lost but I can't find \eta\mu_s
From what I remember \mu\eta_s = mg*sin\theta. Hope somebody can help!

alphysicist · Oct 13, 2010

Hi sepah50,

sepah50 said:

Homework Statement

A block weighing 70.0 N rests on a plane inclined at 25.0° to the horizontal. A force F is applied to the object at 35.0° to the horizontal, pushing it upward on the plane. The coefficients of static and kinetic friction between the block and the plane are, respectively, 0.333 and 0.156.

What is the minimum value of F that will prevent the block from slipping down the plane?

Homework Equations

\sumF_y= Sum of all Forces = Newton's Second Law

The Attempt at a Solution

So in the beginning I draw the Angles and make a Free Body Diagram. I sum up all the forces which is
\sumF_y = \eta + Fsin(10) - 70cos(25) = ma_y

ma_y is 0 since block is not moving away from the plane

what I get then is \eta= .173648F - 63.4415

I think you have a couple of sign errors here.

After this point I know I have to find F_smax which equals \mu_s\eta. After this part I get lost but I can't find \eta\mu_s

When you summed up all the forces, you did it only in the y-direction (perpendicular to the plane). What is the sum of the forces in the x-direction (parallel to the plane)?

From what I remember \mu\eta_s = mg*sin\theta. Hope somebody can help!

sepah50 · Oct 14, 2010

Thanks! :)

cgrbym · Oct 26, 2010

thanks

Newton's Laws of motion problem

Homework Statement

Homework Equations

The Attempt at a Solution

Homework Statement

Homework Equations

The Attempt at a Solution

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