y 12m 2m 4 m 11 m 8 m 2m B 6 m 2 m DRAW THE FREE BODY DIAGRAM FIRST ! The magnitude of force F exerted by the man around the branch at A is 400 N. Express this force AB in terms of rectangular components Calculate the moment of the force F with respect to point O
Q: F1=5 kN F2 13 kN 0-45 30 F3 - 4 kN A 2 m 7m 5n F4 = 22 kN D E leJa =30 FS = 4 kN 1] What is the…
A: As per our guidelines, we are supposed to answer only first three subparts in case of multiple…
Q: f the moment of the five forces about point ( A) is (- 4800 ), find the magnitude of the force ( F,…
A: Given, Forces, F1,F2=300 N, F3=500 N, F4=750 N, F5=600cos30(-i)+600sin30j=-519.6i+300j Distances of…
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Q: F1 = 5 kN F2 = 13 kN 0-45° B-60 C F3 4 kN A B 2 m 7 m F4 = 22 kN E 30° FS = 4 kN 1] What is the…
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A: (a) Write down the given values using suitable variables. Here F1 signifies 1st force, F2 signifies…
Q: Problem 03 Show the drawing A force T passing through points A and B, has a counterclockwise moment…
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Q: 0.3 m 0.4 m 0.2 m F B
A: we are going to find out moment of force along oy.
Q: F1= 10 kN F2= 26 kN F3-8 kN 4 m 8m F4- 44 kN FS = 8 kN 1] What is the resultant moment of the five…
A: As per our guidelines, we are supposed to answer only first three subparts in case of multiple…
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Q: Q 5(a) Find the sum of the moments about point A due to the 500N force and the 200N force acting as…
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Q: For the rigid arm and cross assembly shown, (a) determine the moment of the force T acting from C to…
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A: Given Force P = (-24 i +18 j + 18 k) kN Point C = (3, -7, 2) m Point E = (-4,8,4) m Point A =…
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Q: Determine the magnitude of the moment in lb · in., With respect to the line "ab", that generates the…
A: GIVEN :- FORCE F = 23lb from c to e x = 1.4in y = 2.5in z = 3.8in moment about ab =?
Q: F1 F2 F3 A b C F4 E F5 Consider the following values: - a = 25 m; b = 5 m; c = 25 m; d 5 m; F1 = 4…
A: a = 25 m b = 5 m C = 25 m d = 5 m F1 = 4 kN F2 = 5 kN F3 = 6 kN F4 = 7 kN F5 = 8 kN α =…
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Q: At the instant of the figure, a 3.00 kg particle P has a position vector r of magnitude 4.10 m and…
A: The given data are listed below with suitable variables. Here, m denotes the mass, r denotes the…
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Q: Consider the following composite body as shown. The composite body is made up of uniform rods each…
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Q: A 6.22 kg particle with velocity v = (9.72 m/s)î – (8.99 m/s)ĵ is at x = 2.96 m, y = 5.29 m. It is…
A: m = 6.22 kg v→= 9.72 m/si ^ - 8.99 m/sj ^ x = 2.96 m y = 5.29 m r→ = 2.96 mi^ + 5.29 mj^ F = 5.05 N…
Q: Fj = 750 lb F2 = 200 lb %3D 5, 4 В. 3 D. 0.5 ft 6 ft - 5 ft - 3 ft 4 5 3 F3 = 600 lb Which of the…
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Q: 4.0 m P. 7,0 m 3.0 m B Two forces can be replaced by an equivalent force R acting at point B on the…
A: The correct answer is option (c) i.e. 1.67 m
Q: Consider the following assertions: A. The object's center of gravity is the place of zero moment. B.…
A: Moment of force = r̅ × F̅
Q: 1] What is the resultant moment of the five forces acting on the rod about point A? a) - 2158 KN.m…
A: moment of force = force x perpendicular distance of point from line of action of force =F X R F1= 6…
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A: Given data: Side length of a cube is L Constant density is k
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Q: Suppose we want to calculate the moment of inertia of a 68.5 kg skater, relative to a vertical axis…
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Q: A 9.81 kg particle with velocity = (1.75 m/s )î – (9.01 m/s )j is at x = 2.77 m, y = 6.88 m. It is…
A: Given data- mass of particle m=9.81 kg velocity v→=1.75 m/si^-9.01 m/sj^ position vector r→=2.77…
Q: Q 5(b) Determine the moment of each of the three forces about point A. F,- 300N F, - 250 N 30 2m 500…
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Q: y (m) m1 m3. 1 1: -1 1. X (m) m2 2] 3. 2)
A: The center of mass mass formula is R =∑i =1Nmiri∑i=1Nmi where mi is the mass of ith particle and ri…
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A: The below figure represents the free body diagram of the system.
Q: Given that T = 25 kN and W 28.3 kN, determine the magnitude and sign %3D %3D of the moment (kN-m)…
A: Moment due to weight W M1 = weight x perpendicular distance, M1=28.3×16=452.8 kN-m For the tension…
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A: Tension is given as, TAE=TAEAEAEAE=(0.9)2+(-0.6)2+(0.2)2=1.1 mTAE=551.1(0.9i-0.6j+0.2k)=5(9i-6j+2k)
Q: A member is loaded with force system as shown in figure. Find the Moment about A, B, C, D and E…
A: AB=110 m AC=CE=AE/2=150/2=75 m CD=50 m θ=25o Sign convention Clockwise moment--> +ve…
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Q: 2. Find the sum (net) of moments of all the given forces about point B shown in the figure. The…
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Q: 1.) DETERMINE THE MAGNITUDE OF THE MOMENT OF THE FORCE F = {300i -200j + 150k} N ABOUT THE OA AXIS.…
A: Ans:- Image-1
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Q: y 12m 2m 4 m 11 m 8 m 2 m B 6 m 2 m DRAW THE FREE BODY DIAGRAM FIRST ! The magnitude of force F…
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Q: The four masses shown in the figure(Figure 1) are connected by massless, rigid rods. Assume that m =…
A: Given; m = 240 g
Q: α₁ Part C As shown, a server at a restaurant is carrying a tray that has a glass of water resting on…
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Q: two particles A and B at xyz coordinates (1 m, 1 m, 0) and (1 m, 0, 1 m). Acting on each particle…
A: The figure shows two particles A and B at xyz coordinates (1 m, 1 m, 0) and (1 m, 0, 1 m) and it…
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Q: Find the moment of mass from the x-axis for y = x ln(x) - 3x and y = 1 bounded by x = 3 and x = 6.…
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Q: 4] What is the resultant moment of the five forces acting on the rod about point D? a) 37.6 kN.m b)…
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Q: A body moves according to the equation x (t) = 2 + 5.0t + 4.7t^2. What is the average speed of the…
A: Data provided: Position of body x (t) = 2 + 5.0t + 4.7t2 t1 = 1.7 sec t2 = 7 sec Average speed…
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- Prove the “parallel axis theorem”: The moment of inertia I of a body about a given axis is I = Im +Md2, where M is the mass of the body, Im is the moment of inertia of the body about an axis through the center of mass and parallel to the given axis, and d is the distance between the two axes.A discus thrower rotates with a discus in his hand before letting it go. (a) How does his moment of inertia change after releasing the discus? (b) What would be a good approximation to use in calculating the moment of inertia of the discus thrower and discus?answer in 5 mins consider the diagram, where the tension on cable A is 184 N and the angle is 43 degrees. what is the magnitude of the moment of the tension on cable A about point O? express your answer in N-m
- Rotational Motion A. Determine the angle of banking of a highway withradius 100m, when the velocity of the car passingis 25 m/s without slippage. B. If the angle of friction between the tires of the car andthe road is of part (A) is 0.20, what is supposed to bethe maximum speed without slippage upward?Determine the magnitude of the y-component of force P (N) if P=104.4 N, Q = 64.4 N , θ= 58.6° and α = 40.97°. Round off only on the final answer expressed in 3 decimal places. Instead of units, indicate the direction of the y-component.A small ball of mass 0.50 kg is attached by a massless string to a vertical rod that is spinning as shown below. When the rod has an angular velocity of 6.0 rad/s, the string makes an angle of 30° with respect to the vertical. (a) If the angular velocity is increased to 10.0 rad/s, what is the new angle of the string? (b) Calculate the initial and final angular momenta of the ball. (c) Can the rod spin fast enough so that the ball is horizontal?
- A Ball Rolling Uphill. A bowling ball rolls without slipping up a ramp that slopes upward at an angle b to the horizontal .Treat the ball as a uniform solid sphere, ignoring the finger holes. (a) Draw the free-body diagram for the ball.Explain why the friction force must be directed uphill. (b) What isthe acceleration of the center of mass of the ball? (c) What minimumcoefficient of static friction is needed to prevent slipping?A rope is wound around a shaft 10 cm in diameter. If a pull of 500 N is exerted on the rope, what torque is imparted to the shaft? PS: Include the given format Given, Free-Body Diagrams, Formulas PS: Provide a more detailed solutionA 2kg puck slides with uniform circular motion on a smooth surface. When the radius is 0.80m, the tension in the rope connecting the puck to the center of rotation is 15N. Find and do the following: a.) Free body diagram of the puck (looking at it from the side) when the center of rotation is to the left of it. b.) The angular velocity of the system c.) The acceleration of the system d.) The period of the system. e.) If the radius is increased to 1.60m but the angular velocity remains constant, determine the tension in the rope f.) If the radius is 0.80m, but the angular velocity is doubled, determine the tension in the rope.
- A 0.57 kg steel block rotates on a steel table (μk = 0.6) while attached to a 2.6 m long massless rod. Compressed air fed through the rod is ejected from a nozzle on the back of the block, exerting a thrust force of 3.4 N. The nozzle is 70° from the radial line. The block starts from rest. a. What is the block’s angular velocity after 10 revolutions? rad.s-1 b. What is the tension in the rod after 10 revolutions? NA figure skater has a moment of inertia of 0.33 kg-m2. He is spinning at 336.4 rpm. He extends his arms until he slows down to 74.3 rpm. What is his new moment of inerta (in kg-m2)?Two blocks are connected by a massless string and are held in position by another massless string along a frictionless incline (as shown in the figure). Let M1 = 19.0 kg, M2 = 51.0 kg, and theta = 30o. Calculate the tension in the string connecting the two blocks. What is the tension in the string which connects mass M2 to the wall?