Learning Goal: To use the vector cross product to calculate the moment produced by a force, or forces, about a specified point on a member. The moment of a force F about the moment axis passing through O and perpendicular to the plane containing O and F can be expressed using the vector cross product, Morx F. In a properly constructed Cartesian coordinate system, the vector cross product can be calculated using a matrix determinant: i j k M=rx F = T₂ Figure T% F. Fy F. .Notice that the order of < 1 of 2 Part A Moment due to a force specified as a Cartesian vector 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) The force is given by F=130 Ni-145 Nj+80 N k. The dimensions are a₁ = 1.35 m, 31 = 1.90 m, and ₁= 1.05 m. 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) Mo=[ Submit Review [ΨΕΙ ΑΣΦΠ vec n Part B - Moment due to two forces i, j, k] N.m

Learning Goal: To use the vector cross product to calculate the moment produced by a force, or forces, about a specified point on a member. The moment of a force F about the moment axis passing through O and perpendicular to the plane containing O and F can be expressed using the vector cross product, Morx F. In a properly constructed Cartesian coordinate system, the vector cross product can be calculated using a matrix determinant: i j k M=rx F = T₂ Figure T% F. Fy F. .Notice that the order of < 1 of 2 Part A Moment due to a force specified as a Cartesian vector 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) The force is given by F=130 Ni-145 Nj+80 N k. The dimensions are a₁ = 1.35 m, 31 = 1.90 m, and ₁= 1.05 m. 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) Mo=[ Submit Review [ΨΕΙ ΑΣΦΠ vec n Part B - Moment due to two forces i, j, k] N.m

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Similar questions

Search and define the following:(write each required formula - define its variables) 1. Impulse and Momentum2. Work Energy Principle3. Law of conservation of momentum
Suppose that the total cost function for an is linear, that the marginal cost is $54, and that the total cost for 50 players is $8700. Write the equation of this MP3 player cost function and then graph it.
of the Matrix pictured (i) find all eigenvalues. (ii) calculate the eigenvector corresponding to the smallest eigenvalue
What is the return type of angles function in MATLAB ?
Let's begin by determining the equilibrium position of a seesaw pivot. You and a friend play on a seesaw. Your mass is 90 kg, and your friend’s mass is 60 kg. The seesaw board is 3.0 mm long and has negligible mass. Where should the pivot be placed so that the seesaw will balance when you sit on the left end and your friend sits on the right end? a)Let's look at the same scenario we just worked through, but instead, the board now has a non-zero mass of 15 kg. Where should the pivot be placed for balance?
The natural exponential function can be expressed by . Determine e2by calculating the sum of the series for:(a) n = 5, (b) n = 15, (c) n = 25For each part create a vector n in which the first element is 0, the incrementis 1, and the last term is 5, 15, or 25. Then use element-by-element calculations to create a vector in which the elements are . Finally, use the MATLAB built-in function sum to add the terms of the series. Compare thevalues obtained in parts (a), (b), and (c) with the value of e2calculated byMATLAB.
look at the graph wich presents F vs x graph ... Q : Determine the compression of the spring from the change in position of the cart+block in Graph ? please tell me the steps how can I find compression of the spring from the change in position of the cart+block
the resultants, so you need to add the vectors together. Keep at least three digits, or leave in exact form until the final answer, to avoid this problem
Draw the grounded chair representation of the following system. Also write the governing the equation.
a) Let R represent the reaction force at Support B. By releasing the beam at Support B and imposing a force R at Point B, the deflection of the beam consists of two parts,i.e. Part I- the deflection caused by MB ; Part II- the deflection caused by R Please treat R, w, h , L , E as variables in this step , the mathematical equation for the deflection at Point B caused by R ( Part II) can be written as (Hint : to input equation R2LQ2wh , you can type (R^2*L)/(Q^2*w*h) ) b) Using the provided data: cross-section width w = 20 mm, cross-section hight h = 93 mm, length of the beam L =3 m , beam material’s Young’s modulus Q =226 GPa, applied bending moment MB = 11 kN.m The value of the deflection at Point B caused by MB ( Part I) can be calculated as ......(in mm)
1. PRR RRR robot, whose body structure is given on the side,a. Place coordinate systems appropriately at each joint.b. Create the DH-Parameters table by using the coordinate systems you have placed.c. Calculate the T transformation matrix using the DH-Parameters table.
Please ASAP: (image provided) a) Create a function to solve a projectile problem where you are given initial x and y velocity, and the initial and final y position (inputs). You would like to use this function to find the final x and y velocity (outputs). This function will be used in the solution of the following problem. b) In the figure below, belt A moves with a constant velocity of 5 ft/s, and discharges sand onto belt B as shown. Assume that the angle of belt B is 15 degrees as shown. Write a MATLAB program to determine the required velocity of belt B if the relative velocity with which the sand hits belt B is (a) vertical, and (b) as small as possible. For part (b), use MATLAB to create a plot of the velocity of the sand relative to belt B, as a function of the velocity of belt B. Verify (either by hand, or by using MATLAB) that the minimum shown in this plot corresponds to the point at which the velocity of the sand relative to belt B is perpendicular to the velocity of…