4. If F, stands for a force vector of magnitude 30.0 N and F2 stands for a force vector of magnitude 40.0 N acting in the directions shown in Figure 3-6, what are the magnitude and direction of the resultant obtained by the vector addition of these two vectors using the analytical method? Show your work. Magnitude =, _N Direction (relative to x axis) =, degrees 5. What is the equilibrant force that would be needed to compensate for the resultant force of the vectors F, and F2 that you calculated in Question 4? Magnitude =, _N Direction (relative to x axis) =, degrees y F2 60° F1 Figure 3-6 Addition of two force vectors. © 2014, Cengage Leerning

4. If F, stands for a force vector of magnitude 30.0 N and F2 stands for a force vector of magnitude 40.0 N acting in the directions shown in Figure 3-6, what are the magnitude and direction of the resultant obtained by the vector addition of these two vectors using the analytical method? Show your work. Magnitude =, _N Direction (relative to x axis) =, degrees 5. What is the equilibrant force that would be needed to compensate for the resultant force of the vectors F, and F2 that you calculated in Question 4? Magnitude =, _N Direction (relative to x axis) =, degrees y F2 60° F1 Figure 3-6 Addition of two force vectors. © 2014, Cengage Leerning

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter2: Vectors

Section: Chapter Questions

Problem 33P: A trapper walks a 5.0-km straigt4ine distance from his cabin to the lake, as shown in the following...

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