Solve the following problems: 1- A hockey puck having a mass of a 0.3 kg slides on the horizontal, frictionless surface of an ice rink. Two hockey sticks strike the puck simultaneously, exerting the forces on the puck shown in the Fig. The. force F₁ has a magnitude of 5 N, and the force F2 has a magnitude of 8 N. Determine both the magnitude and the direction of the puck's acceleration. 60⁰ 20⁰ F₂=8 N F₁ = 5 N
Solve the following problems: 1- A hockey puck having a mass of a 0.3 kg slides on the horizontal, frictionless surface of an ice rink. Two hockey sticks strike the puck simultaneously, exerting the forces on the puck shown in the Fig. The. force F₁ has a magnitude of 5 N, and the force F2 has a magnitude of 8 N. Determine both the magnitude and the direction of the puck's acceleration. 60⁰ 20⁰ F₂=8 N F₁ = 5 N
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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Question
A hockey puck having a mass of a 0.3 kg slides on the horizontal,
frictionless surface of an ice rink. Two hockey sticks strike the puck
simultaneously, exerting the forces on the puck shown in the Fig. The
force F1 has a magnitude of 5 N, and the force F2 has a magnitude of 8
N. Determine both the magnitude and the direction of the puck’s
acceleration.
2- A car with mass 2000 kg moves with velocity 20 m/s on a friction surface. If the car takes
100 m to stop, determine the friction force.
Transcribed Image Text:Solve the following problems:
1- A hockey puck having a mass of a 0.3 kg slides on the horizontal,
frictionless surface of an ice rink. Two hockey sticks strike the puck
simultaneously, exerting the forces on the puck shown in the Fig. The
force F₁ has a magnitude of 5 N, and the force F₂ has a magnitude of 8
N. Determine both the magnitude and the direction of the puck's
acceleration.
60⁰
20⁰
F₂ = 8 N
F₁ = 5 N
X
2- A car with mass 2000 kg moves with velocity 20 m/s on a friction surface. If the car takes
100 m to stop, determine the friction force.
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