Use the free body diagram method to derive the differential equations governing the motion of the system of Fig. 5-1 using x, x2, and x, as generalized coordinates.
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- Use the free body diagram method to derive the differential equationgoverning the motion of the system of Figure below using θ as the generalized coordinate.Plicle me Iom O to the p. time rate of chan, See Problem 5.6 EQUATIONS OF MOTION A CENTRAL FIELD Fal force i ane as the Date: takes place in a p y plane and the coos le as polar coordinates (r, 8), the are found to be (see Problem 5. m(F - röz) = f(r) for the m(rë + 2ré) = 0 tots denote differentiations with the disk inertia of Cauestion Find moment of the about totat ion X-axis Y-axis Z-axis three priacipal aris the" THEOREMS OF PAPUS " Please refer to the answer key (book from Engineering Mechanics by SInger) Please include the analyzation of figure so that i could undestand the steps and solution. Thankyou!
- Q3: Find Req. between points (A&B) in the network in fig.(3). (25 mark) 22 42² lon 8r Fig.3 m 36₁ A BUse the Finite Volume method to find general nodal equations for the CV of the geometry. Use the implicit method to find the rate of change of energy storage in the CV.7. What con be derived about moving with a par tickes alleleratian if itis a velocily of
- 5Aug-9781118486894-97811193 × + O File | C:/Users/HP/Downloads/5Aug-9781118486894-9781119394112-Physics%20by%20David%20Young,%20Shane%20Stadler.pdf 由 42 of 994 A) Read aloud V Draw O Erase A nent and (b) the y scalar component of the vector? 35. ssm Vector A points along the +y axis and has a magnitude of 100.0 units. Vector B points at an angle of 60.0° above the +x axis and has a magnitude of 200.0 units. Vector C points along the +x axis and has a magnitude of 150.0 units. Which vec- tor has (a) the largest x component and (b) the largest y component? 29. Given the vectors P and0 shown on the 30.0 T8.00 cm grid, sketch and calculate the magnitudes of the vectors (a) M = P +Q and (b) K =2P - Q. Use the tail-to-head method and express the magnitudes in centimeters with the aid of the grid scale shown in the drawing. A, 36. Soccer player #1 is 8.6 m from the goal (see the drawing). If she kicks the ball directly into the net, the ball has a displacement labeled A. *30. mmh Vector A has…Identify the three rectilinear kinematic equations and their limitations.The following model is displayed in the O2-Dimensional O Geotropic Isometric Spatial Render view.
- (3) For the given boundary value problem, the exact solution is given as = 3x - 7y. (a) Based on the exact solution, find the values on all sides, (b) discretize the domain into 16 elements and 15 evenly spaced nodes. Run poisson.m and check if the finite element approximation and exact solution matches, (c) plot the D values from step (b) using topo.m. y Side 3 Side 1 8.0 (4) The temperature distribution in a flat slab needs to be studied under the conditions shown i the table. The ? in table indicates insulated boundary and Q is the distributed heat source. I all cases assume the upper and lower boundaries are insulated. Assume that the units of length energy, and temperature for the values shown are consistent with a unit value for the coefficier of thermal conductivity. Boundary Temperatures 6 Case A C D. D. 00 LEGION Side 4 z epissolve this answer is 96252.972 y < -1Sx + 3000 y < 5x In the xy-plane, if a point with coordinates ( a, b) lies in the solution set of the system of inequalities above, what is the maximum possible value of b ?I need the step by step solution for "solving the A and B". The second image is only a part of my previous problem where I am confused at, please answer it using the first image.