- In the diagram below, a toy car having a mass of 4.00 x 10-2 kilogram starts from rest at point A and travels 3.60 meters along a uniform track until coming to rest at point B. 0.80 m m = 4.00 x 10-² kg B N ground to the thousandths place) 0.50 m Calculate the magnitude of the frictional force acting on the car. [Assume the frictional force is constant.]

- In the diagram below, a toy car having a mass of 4.00 x 10-2 kilogram starts from rest at point A and travels 3.60 meters along a uniform track until coming to rest at point B. 0.80 m m = 4.00 x 10-² kg B N ground to the thousandths place) 0.50 m Calculate the magnitude of the frictional force acting on the car. [Assume the frictional force is constant.]

Name: Round to the thousandths place In the diagram below, a toy car having
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Description: Round to the thousandths place In the diagram below, a toy car having a massof 4.00 x 10-2 kilogram starts from rest atpoint A and travels 3.60 meters along auniform track until coming to rest at point B.0.80 mm = 4.00 x 10-² kgdelivery/start/66350.5

Glencoe Physics: Principles and Problems, Student Edition

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ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter1: A Physics Toolkit

Section: Chapter Questions

Problem 7STP

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Newton's First Law of Motion

If a very smooth ball is rolled down an inclined surface with zero friction, the ball will continue to roll indefinitely for an infinite time, in an attempt to reach to the same height on the opposite hill!

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Round to the thousandths place

In the diagram below, a toy car having a mass
of 4.00 x 10-2 kilogram starts from rest at
point A and travels 3.60 meters along a
uniform track until coming to rest at point B.
0.80 m
m = 4.00 x 10-² kg
delivery/start/6635
0.50 m
N pound to the thousandths place)
Calculate the magnitude of the frictional force
acting on the car. [Assume the frictional force is
constant.]

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