Help please simple Physics frictionless crate on ramp problem Urgent?

AI Thread Summary
The discussion focuses on solving a physics problem involving a crate on a frictionless ramp. The crate, with a mass of 100 kg, is pushed up a ramp at a 30° angle using a horizontal force. The first part of the problem calculates the force required to maintain constant speed, where the gravitational component along the ramp is found using mg sin θ. The second part involves determining the normal force, which requires considering both the weight component perpendicular to the ramp and the vertical component of the applied force. The explanation emphasizes breaking down the forces into components and applying Newton's laws in both the x and y directions for clarity. Understanding these principles is crucial for solving similar physics problems effectively.
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Help please! simple Physics frictionless crate on ramp problem! Urgent!?

A crate of mass m = 100 kg is pushed at constant speed up a frictionless ramp (θ = 30.0°) by a horizontal force F. What are the magnitudes of (a) F and (b) the force on the crate from the ramp?

So my teacher did this problem but I do not understand

here's what he did:

a) mg sin θ = 100(9.8)sin30 = 490 N (I understand this part)
490 / cos30 = 566N <--Why divide by cos 30 to get the correct answer?!?

b) N = mg cos θ + F sin θ
100(9.8)cos30 + 566sin30 = 1131N <--I do not understand part b) at all. Can someone explain step by step on what we are doing on part b).

help please!
 
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help i have a test tmrw!
 


Choose the x-axis as the axis parallel to the plane and the y-axis perpendicular to the plane. The applied force is horizontal and you can break it up onto its x and y components. Then use Newton 1 in the x direction and Newton 1 in the y direction.
 

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