Projectile motion on inclined plane

AI Thread Summary
The discussion centers on a physics problem involving projectile motion on an inclined plane, where an object is projected upward along a slope at an angle. The initial interpretation of the problem incorrectly combined the angles of the slope and the projection. The correct approach emphasizes that the object moves within the plane of the slope, not above it, leading to a different calculation for the initial speed. The resolution clarifies that the initial speed should be derived using only the angle of projection relative to the slope, not the total angle. Understanding the motion's constraints is crucial for solving the problem accurately.
songoku
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Homework Statement


As shown in the figure below, small object A is projected upward along a smooth slope forming angle α with the horizontal plane, with initial speed v0 in the direction of angle θ from the horizontal within the slope’s plane. The object continues to travel along the surface of the slope. Let us denote as h the maximum height that A attains on the slope, where height is measured vertically from A’s starting point. Find v0
aszx_zpsz5raqsdb.png


Homework Equations


projectile motion

The Attempt at a Solution


I interpret the question as projectile motion with total angle (α + θ) with respect to horizontal plane.

At maximum height, vertical speed is zero, so:
vy2 = voy2 - 2gh

v0 = √(2gh) / (sin (α + θ))

But the answer is v0 = √(2gh) / (sin θ)

Do I interpret the question wrongly? Or there is mistake in my working?
 
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The angles don't add in the way you think.
 
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songoku said:
I interpret the question as projectile motion with total angle (α + θ) with respect to horizontal plane.
You misinterpreted the question. The ball moves "within" the slopes plane, I mean, it does not go "above" the plane.
 
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CWatters said:
The angles don't add in the way you think.

arpon said:
You misinterpreted the question. The ball moves "within" the slopes plane, I mean, it does not go "above" the plane.

I get the hint. Thanks a lot
 
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