What Is the Coefficient of Static Friction Between a Block and a Moving Truck?

AI Thread Summary
The discussion revolves around calculating the coefficient of static friction between a block and a moving truck on a 15° incline. The block remains on the truck if it accelerates at less than 2.50 m/s²; otherwise, it slides off. Participants discuss the need to consider the normal force and the gravitational force acting on the block. They explore the relationship between static friction, normal force, and the incline angle, ultimately leading to the realization of how to derive the coefficient of friction. The conversation highlights the importance of understanding forces and acceleration in this context.
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An un-tethered block sits on a flatbed truck as it accelerates up an incline that makes an angle of 15° with respect to the horizontal. If the truck speeds up at a rate less than 2.50 m/s2, the block remains on the truck. If the truck speeds up at a rate equal to or greater than this value, however, the block slides off the truck. What is the coefficient of static friction between the truck and the block?

Ok so i understand that tan(15) gives me the coef if the trunk is motionless i think? (.267)

And when it has motion i need to account for Normal Force which is Fn= M* G

But i cannot figure out how i get the mass. Assuming something to do with the 2.50 accel but i am stuck any tips would be great.

Fs = n tan angle also found that but still can't figure out how to get Fn
 
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What is the maximum frictional force?

There are 3 forces acting on the block... the static frictional force upward... gravity, and the normal force...

sum of the forces in the direction parallel to the incline = ma

set a = 2.50. what is the frictional force?

sum of the forces perpendicualr to the incline = 0

what is the normal force?

so what is the coefficient of frction...
 
ahhhhh i feel dumb =/ i got it now thank you for leading me in the right direction
 

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