Proving Acceleration of a Cart on an Inclined Plane | Physics Lab Homework Help

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To prove that the acceleration of a cart on an inclined plane is equal to gravity times the sine of the incline angle, start by analyzing the forces acting on the cart. Draw a diagram to visualize the gravitational force and its components along the incline, using basic trigonometry to show that the force parallel to the incline is mg sin(theta). This approach involves replacing the gravitational force vector with two components that together yield the same effect. Understanding this vector decomposition is crucial for grasping the relationship between acceleration, incline angle, and gravity. The discussion emphasizes the importance of visual aids and trigonometric principles in solving the problem.
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Homework Statement



In a lab in physics, we were asked to roll a cart down an inclined plane. How would you prove that the acceleration of cart over SINE of theta (the angle of the incline) is equal to gravity?
(A hint equation was given of the Net Force parallel= mass times acceleration parallel)

3. I didn't know where to start, I'm not too savvy with formulas...
 
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Draw a picture with the incline and the gravitational force. The component of the gravitational force along the incline and the arrow of the gravitational force are two sides of a triangle and the angle between them is also theta (your picture should look something like this; http://upload.wikimedia.org/wikipedia/commons/8/85/Free_body.svg -- try to convince yourself that the angle between the arrows labelled "mg" and "mg sin(theta)" is also theta). Then finding that the component along the plane is indeed sin(theta) * <magnitude of the gravitational force> is basic trigonometry.
 
Why is it acceptable that you add another vector (g*sin of theta)?
 
Actually, you add two and remove one. That is: you replace the vector F that indicates the gravitational force by two vectors which add up (in a vectorial sum sense) to F. In other words, you forget about gravity, but introduce two new forces who together have the same effect.

Do you understand that (I don't have the idea that I'm very clear about this).
 

Thread 'Rolling without slipping on a curved surface'

Kindly see the attached pdf. My attempt to solve it, is in it. I'm wondering if my solution is right. My idea is this: At any point of time, the ball may be assumed to be at an incline which is at an angle of θ(kindly see both the pics in the pdf file). The value of θ will continuously change and so will the value of friction. I'm not able to figure out, why my solution is wrong, if it is wrong .
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