Finding the Velocity of an Object Moving along an Inclined Plane

In physics, you can calculate the velocity of an object as it moves along an inclined plane as long as you know the object’s initial velocity, displacement, and acceleration. Just plug this information into the following equation:

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The figure shows an example of a cart moving down a ramp. You can use the formula with the information in the figure to find the cart’s final velocity.

Racing a cart down a ramp.
Racing a cart down a ramp.

The initial velocity along the ramp, vi, is 0 meters/second; the displacement of the cart along the ramp, s, is 5.0 meters; and the acceleration along the ramp is

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so you get the following:

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This works out to vf = 7.0 meters/second, or a little under 16 miles/hour. That doesn’t sound too fast until you try to stop an 800-kilogram automobile at that speed — don’t try it at home! (Actually, this example is a little simplified, because some of the force of gravity goes into causing the wheels of the cart to rotate.)

Now here’s another example: How fast would an ice cube on the ramp go at the bottom of the ramp if friction weren’t an issue?

The angle of the direction perpendicular to the ramp surface from the angle of the ramp.
The angle of the direction perpendicular to the ramp surface from the angle of the ramp.

Answer: the same speed you just figured, 7.0 meters/second. The acceleration of an object along a ramp that’s at an angle theta with respect to the ground is

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The mass of the object doesn’t matter — this simply takes into consideration the component of the acceleration due to gravity that acts along the ramp. And after you know the acceleration along the ramp’s surface, which has a length equal to s, you can use this equation:

image6.png

Mass doesn’t enter into it.

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