This first part is at a angle of 30 degrees and it's 3 meters long. The other is at 45 degrees and it's 4 meters long. The entire ramp sits on a table that is 5 meters high. The first part is frictionless. The second part has a kinetic friction coefficient of 1. Assume that an object starts from rest on the first part and slides onto the second and then flies into the air exhibiting projectile motion under gravity. A) How far from the edge of the table will the object hit the floor? B) Total time from start to finish? C) Speed at the end of ramp 1? D) speed and velocity at the end of ramp 2? E) speed, velocity, angle when it impacts the floor?
This first part is at a angle of 30 degrees and it's 3 meters long. The other is at 45 degrees and it's 4 meters long. The entire ramp sits on a table that is 5 meters high. The first part is frictionless. The second part has a kinetic friction coefficient of 1. Assume that an object starts from rest on the first part and slides onto the second and then flies into the air exhibiting projectile motion under gravity. A) How far from the edge of the table will the object hit the floor? B) Total time from start to finish? C) Speed at the end of ramp 1? D) speed and velocity at the end of ramp 2? E) speed, velocity, angle when it impacts the floor?
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter5: Newton's Laws Of Motion
Section: Chapter Questions
Problem 74PQ: Starting from rest, a rectangular toy block with mass 300 g slides in 1.30 s all the way across a...
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This first part is at a angle of 30 degrees and it's 3 meters long. The other is at 45 degrees and it's 4 meters long. The entire ramp sits on a table that is 5 meters high. The first part is frictionless. The second part has a kinetic friction coefficient of 1. Assume that an object starts from rest on the first part and slides onto the second and then flies into the air exhibiting projectile motion under gravity.
A) How far from the edge of the table will the object hit the floor?
B) Total time from start to finish?
C) Speed at the end of ramp 1?
D) speed and velocity at the end of ramp 2?
E) speed, velocity, angle when it impacts the floor?
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