2. A 1.0 kilogram box, initially at rest, starts from a height of 0.60 meters, slides down a frictionless ramp and across a rough table. 1.0 kg 0.60 m V₁ = ? V₂ = ? 1.5 m 0.10 a. Calculate the velocity (v₁) of the box at the bottom of the frictionless ramp. Show all of your work. b. Calculate the velocity (v₂) of the box after it has slid 1.5 meters across the rough table. The coefficient of kinetic friction between the box and the table is μ = 0.1 Show all of your work. c. Draw a complete free-body diagram of the box while it is sliding on the rough table.

2. A 1.0 kilogram box, initially at rest, starts from a height of 0.60 meters, slides down a frictionless ramp and across a rough table. 1.0 kg 0.60 m V₁ = ? V₂ = ? 1.5 m 0.10 a. Calculate the velocity (v₁) of the box at the bottom of the frictionless ramp. Show all of your work. b. Calculate the velocity (v₂) of the box after it has slid 1.5 meters across the rough table. The coefficient of kinetic friction between the box and the table is μ = 0.1 Show all of your work. c. Draw a complete free-body diagram of the box while it is sliding on the rough table.

Name: 2. A 1.0 kilogram box, initially at rest, starts from a height of 0.6
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Description: 2. A 1.0 kilogram box, initially at rest, starts from a height of 0.60 meters, slides down africtionless ramp and across a rough table.1.0 kg= ?V₁ = ?0.60 m1.5 mM = 0.10aCalculate the velocity (v₁) of the box at the bottom of the frictionless ramp.

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter8: Linear Momentum And Collisions

Section: Chapter Questions

Problem 44PE: (a) During an ice skating performance, an initially motionless 80.0-kg clown throws a fake barbell...

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