1. While you're ice-skating with your friends, you push off from one end of the 1 point rink and slide forward. Based on Newton's first law of motion, what is true?* Mark only one oval. You will lose your balance and fall over before you reach the middle of the ice rink. You will continue to slide across the ice until a force makes you stop or change direction. The force of gravity will make you keep your velocity until your friends make you stop. The size of your ice skates will determine how quickly or slowly you travel across the
1. While you're ice-skating with your friends, you push off from one end of the 1 point rink and slide forward. Based on Newton's first law of motion, what is true?* Mark only one oval. You will lose your balance and fall over before you reach the middle of the ice rink. You will continue to slide across the ice until a force makes you stop or change direction. The force of gravity will make you keep your velocity until your friends make you stop. The size of your ice skates will determine how quickly or slowly you travel across the
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Noutente 1etlaur of Motion and Met Enrre Deio
Study Jams - Newton's 1st Law of Motion and Net Force Review
1. While you're ice-skating with your friends, you push off from one end of the 1 point
rink and slide forward. Based on Newton's first law of motion, what is true?*
Mark only one oval.
You will lose your balance and fall over before you reach the middle of the ice rink.
You will continue to slide across the ice until a force makes you stop or change
direction.
The force of gravity will make you keep your velocity until your friends make you stop.
The size of your ice skates will determine how quickly or slowly you travel across the
ice.
Expert Solution
Step 1
NEWTON 1 LAW: If the net external force on a body is zero, it's acceleration is zero. Acceleration can be non zero only if there is an external force on the body.
F=ma
So iff F=0 then a=0
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