An object of mass m has these three forces acting on it . F1, F2, and F3 are shown in the figure. Assume the x-direction is to the right, and the y-direction is straight upwards.Let F1 = 7 N, F2 = 9 N, and F3 = 2 N.What is the direction of the net force, expressed as the angle θ, in degrees, that the net force vector makes with respect to the +x-axis? Enter an angle between −180∘ and +180∘. The image depicts a free body diagram of a square object with three forces acting upon it. - \( \vec{F}_1 \): A force acting downwards from the center of the square.- \( \vec{F}_2 \): A force acting to the right from the center of the square.- \( \vec{F}_3 \): A force acting to the left from the center of the square.Each force is represented by an arrow, indicating both the magnitude and direction of the force. The net force on the object can be calculated by analyzing these vector forces and their respective directions.

The net force in the vector form is expressed using the magnitude and direction of the force.The…

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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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An object of mass m has these three forces acting on it . F1, F2, and F3 are shown in the figure. Assume the x-direction is to the right, and the y-direction is straight upwards.

Let F1 = 7 N, F2 = 9 N, and F3 = 2 N.

What is the direction of the net force, expressed as the angle θ, in degrees, that the net force vector makes with respect to the +x-axis? Enter an angle between −180∘ and +180∘.

The image depicts a free body diagram of a square object with three forces acting upon it.

- \( \vec{F}_1 \): A force acting downwards from the center of the square.
- \( \vec{F}_2 \): A force acting to the right from the center of the square.
- \( \vec{F}_3 \): A force acting to the left from the center of the square.

Each force is represented by an arrow, indicating both the magnitude and direction of the force. The net force on the object can be calculated by analyzing these vector forces and their respective directions.

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