Please give me the solution in a handwritten solution.Don't use chatgpt,You must have to draw the free body diagram. Problem 2.8Suppose that F₂ = 6 kN. (Figure 1)Part ADetermine the directions of the force F₂ components acting along the u and vaxes.along the negative u axis and along the negative v axisalong the positive u axis and along the positive v axisalong the negative u axis and along the positive v axisalong the positive u axis and along the negative u axisSubmitMy Answers Give UpFigure 1of 175°V30°30°F₁ = 4 kNF2Part BDetermine the magnitude of the component (F2)μ-Express your answer with the appropriate units.Part C?UnitsMy Answers Give Up(F2). ValueSubmitIncorrect; Try Again; 5 attempts remainingDetermine the magnitude of the component (F2),Express your answer with the appropriate units.?u(F2), ValueUnitsSubmitMy Answers Give Up

Answered: Problem 2.8 Suppose that F₂ = 6 kN.…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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Topics Discussed: Static of Rigid Bodies, Force Vector, Addition of a System of Coplanar Forces, Cartesian Vector Please re-compute and re-solve the given, This is my answer. But I also want to see your expert answer if we land in the same solutions and answers. Please show your complete solution. Thank you.
Q5
In a nutshell, a smaller rock is propelled into the air as a huge counterweight in the back falls down, effectively converting gravitational potential energy into kinetic energy for the rock and the weight. But, since the rock is smaller.. it is propelled at a much faster velocity! Let's say we wanted to hurl a 50 kg boulder at a castle wall 100 meters away. Our wooden structure for the trebuchet is 10 meters tall, so that is the maximum distance the counterweight can fall. Assuming the launch angle is a perfect 45 degrees, and the boulder is released from ground level, derive the needed mass of the counterweight that will give the boulder enough kinetic energy to reach the base of the castle walls. You may assume no energy is "lost" due to friction, and ALL the counterweight's gravitational potential energy is converted into the boulder's kinetic enerqy. (HINT: You will need to employ 2D kinematics to find the needed final velocity, then use that final velocity in an energy equation…
Q1
2. Solve the system linear of Equation using Gauss- Jordan elimination (row operations), find the value of x1, x2 and x3. 2X1 - 2X2 + X3 = 3 3X1 - X3 + X2 = 7 X1 - 3X2 + 2X3 = 0
Write MATLAB code to solve a nonlinear equation using Newton-Raphson Method
ii, If the length of each element is 5m and the k-EA/L is given as shown, analyze the following system by Direct Method of Finite Element. ki - 200 kN/m * - 1000 kN/m ky : 300 kN/m 400 kN 2 Develop the displacement vector b. Develop the force vectors | c. Develop the stifness matrix for each element d. Develop the global matrix for the sytem e. Find the displacement at node 2 £ Find the forces at node 1 and 3.
Learning Goal: To use the dot product to find the components of forces acting in arbitrary directions. A three-legged structure is shown below. It is attached to the ground at points B= (4.68,0,0) and C=(-4.68.0.0) and connected to the ceiling at point A = (-5.54,3.10.4.47). The three legs connect at point D = (0,2.49, 4.00). where two forces, F and P. act. Force F is given by F= 6.00 i 12.5j + 26.2 k N: P has Figure 1 of 1 D Important: If you use this answer in later parts, use the full unrounded value in your calculations. ▾ Part D - Finding the component of a force perpendicular to a direction Given F 6.00 i 12.5j +26.2 kN, find the component of F that acts perpendicular to member DA such that the vector addition of the perpendicular and parallel components of F (F=F+F) with respect to DA equals F. Express your answer in component form. Express your answers, separated by commas, to three significant figures. View Available Hint(s) FIDA Submit VAXtvec Previous Answers * Incorrect;…
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