FigureNB< 3 of 3F₂> Part C - Moment due to two forcesAs shown, a member is fixed at the origin, point O, and has two applied forces, F₁ and F2, applied at the free end, point B.(Figure 3)The forces are given by F₁ = 90 Ni-120 Nj+65 Nk and F2 has magnitude 165 N and direction angles = = 158.0°, B=77.0°, and y = 72.6°.The dimensions are x₁ = 4.00 m, y₁ = 5.90 m, and z₁ = 2.90 m.What is the moment about the origin due to the applied forces?Express the individual components of the Cartesian vector to three significant figures, separated by commas.► View Available Hint(s)Mo =[Submit15. ΑΣΦ | 11vecp?i, j, k] N.m

Answered: Image /qna-images/answer/c68d7e72-4e4c-44c7-9926-391e09543ed0.jpg

Part C - Moment due to two forces As shown, a member is fixed at the origin, point O, and has two applied forces, F₁ and F2, applied at the free end, point B. (Figure 3) The forces are given by F₁ = 90 Ni-120 Nj+65 Nk and F2 has magnitude 165 N and direction angles x = 158.0°, B=77.0°, and y = 72.6° The dimensions are ₁4.00 m, y₁ = 5.90 m, and z₁ = 2.90 m. What is the moment about the origin due to the applied forces? Express the individual components of the Cartesian vector to three significant figures, separated by commas. ▸ View Available Hint(s) Mo =[ Submit 195| ΑΣΦ | 11 vec hey ? i, j, k] N-m

Part C - Moment due to two forces As shown, a member is fixed at the origin, point O, and has two applied forces, F₁ and F2, applied at the free end, point B. (Figure 3) The forces are given by F₁ = 90 Ni-120 Nj+65 Nk and F2 has magnitude 165 N and direction angles x = 158.0°, B=77.0°, and y = 72.6° The dimensions are ₁4.00 m, y₁ = 5.90 m, and z₁ = 2.90 m. What is the moment about the origin due to the applied forces? Express the individual components of the Cartesian vector to three significant figures, separated by commas. ▸ View Available Hint(s) Mo =[ Submit 195| ΑΣΦ | 11 vec hey ? i, j, k] N-m

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)...

See similar textbooks

Similar questions

1 of 1. ▸ Part A Locate the centroid of the parabolic area. Take a = 7 in, h=19 in (Figure 1) Express your answer to three significant figures and include the appropriate units. Value Submit A 4 Provide Feedback Bequest Answer → Units
Plz solve correctly
Please provide typed answer. I NEED TYPED ANSWERS. Thank you.
5n Suppose a point has polar coordinates 5, with the angle measured in radians. Find two additional polar representations of the point. Write each coordinate in simplest form with the angle in -2x, 2n]. 5? (OD
Figure x Part A - Moment due to a force specified by magnitude and endpoints F As shown, a member is fixed at the origin, point O, and has an applied force F, the tension in the rope, applied at the free end, point B. (Figure 1) VE ΑΣΦ ↓↑ vec Mo 0.013,97.9, - 196 Submit The force has magnitude F = 140 N and is directed as shown. The dimensions are x₁ = 0.450 m, x₂ = 1.70 m, y₁ = 2.60 m, and z₁ = 1.30 m. B What is the moment about the origin due to the applied force F? Express the individual components of the Cartesian vector to three significant figures, separated by commas. ► View Available Hint(s) Previous Answers X Incorrect; Try Again; 4 attempts remaining 1 of 3 ? i, j, k] N · m
A 13-ft ladder is leaning against a house when its base starts to slide away. By the time the base is 5 ft from the house, the base is moving away at the rate of 36 ft/sec. a. What is the rate of change of the height of the top of the ladder? b. At what rate is the area of the triangle formed by the ladder, wall, and ground changing then? c. At what rate is the angle between the ladder and the ground changing then? y 13-ft ladder y(t) x(t) X
A cube with the dimensions bXbXb with mass m lies on the flat horizontal ground. One the side shown in the figure. The thickness normal to the plane of the figure is b. The cube is subject to the earth's gravity and the friction coefficient between the cube abd the ground is mu. Express your answer in terms of the given variables. What is the minimum force required to produce sliding? What is the minumum force required to produce tipping of the cube? Assume the cube is rotating about O. Impulsive horizontal loading L is applied on the edge B such that force F(t) is applied during the very short time delta t: where L= the integral from zero to delta t of F(t)dt. What is the minimum value of the impulse for which the cube tips over and falls on side OA.