To use the equations of equilibrium to analyze a systemcontaining a wedge and to determine the necessary appliedforce to introduce motion into the system.The crate shown is held against wedge B by a spring. Thespring is 96.0% of its original uncompressed lengthl= 3.00 m, and the spring constant is given ask = 1750 N/m. The coefficient of static friction at allcontacting surfaces is ls = 0.150. The mass of the crate ism = 23.0 kg . The angle is 0 = 13.0°. Neglect the mass ofthe wedge. Assume the crate only moves in the y directionand that wedge A cannot move.(Figure 1)Figure1 of 1В Determine the magnitude of the smallest horizontal force P that is necessary to begin moving the crate upward.Express your answer to three significant figures and include the appropriate units.• View Available Hint(s)HA?P =ValueUnits

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Description: To use the equations of equilibrium to analyze a systemcontaining a wedge and to determine the necessary appliedforce to introduce motion into the system.The crate shown is held against wedge B by a spring. Thespring is 96.0% of its original uncompr

Using spring combo Value of p= 397 N

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To use the equations of equilibrium to analyze a system containing a wedge and to determine the necessary applied force to introduce motion into the system. The crate shown is held against wedge B by a spring. The spring is 96.0% of its original uncompressed length l= 3.00 m, and the spring constant is given as k = 1750 N/m. The coefficient of static friction at all contacting surfaces is 4, = 0.150. The mass of the crate is m = 23.0 kg. The angle is 0 = 13.0°. Neglect the mass of the wedge. Assume the crate only moves in the y direction and that wedge A cannot move. (Figure 1) Figure < 1 of 1> B

To use the equations of equilibrium to analyze a system containing a wedge and to determine the necessary applied force to introduce motion into the system. The crate shown is held against wedge B by a spring. The spring is 96.0% of its original uncompressed length l= 3.00 m, and the spring constant is given as k = 1750 N/m. The coefficient of static friction at all contacting surfaces is 4, = 0.150. The mass of the crate is m = 23.0 kg. The angle is 0 = 13.0°. Neglect the mass of the wedge. Assume the crate only moves in the y direction and that wedge A cannot move. (Figure 1) Figure < 1 of 1> B

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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