Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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- solve and show all steps. either partial or full answer is providedarrow_forwardHome work The 50-kg crate shown in figure, rests on a horizontal surface for which the coefficient of kinetic friction is u = 0.3. If the crate is subjected to a 400N towing force as shown, determine the velocity of the crate in 3 s starting from rest. P = 400 N \30°arrow_forwardThe helical path is wound around the circular cylinder with radiusR . The step h= 2*pi*R. The object A is sliding through the path guide under gravity (acting in the negative zdirection). There is no air resistance 1)Draw the force diagrams in (theta ,Z ) plane (tangent to the cylinder) and in( r,theta ) plane. 2) If the initial speed is 0, find the speed after 3 full circles. Given: R, g, m, u.[Hint: Use the work-energy principle.]arrow_forward
- Find the minimum weight of block A in order for motion to be impending down the plane (to the left). Assume the pulley to be frictionless. Given:WB = 180 lbs, θ = 40 °, μ = 0.2 for all surfaces.arrow_forwardThe spool, which has a mass of 2 kg, slides along the smooth horizontal spiral rod, r = (0.400) m, where is in radians, as shown in (Figure 1). Figure 8= 6 rad/s 1 of 1 Part A If its angular rate of rotation is constant and equals = 6 rad/s, determine the horizontal tangential force P needed to cause the motion, and the horizontal normal force component that the spool exerts on the rod at the instant 0 = 45°. Express your answers in newtons using three significant figures separated by a comma. P, N = Submit Provide Feedback VE ΑΣΦ Request Answer ↓vec ? Next >arrow_forwardSolve with FBD. Strictly don't use chatgptarrow_forward
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- 4- Three forces F1, F2, F3 affect a body F2 with a mass of 4 kg, as shown in the figure. If F1 = 10N, F2=15N,F3=20N calculate the acceleration with which the body will move,, and determine the direction of the acceleration. E 30° 7F3 F1arrow_forward1000 lb -8 ft +2ft A beam that weighs 300 lbs is supported by a roller and pin B and A respectively while being subjected to a force of 1000 lbs. If the pin at A is suddenly removed, determine the beams angular acceleration, the force exerted by support B and the horizontal acceleration just after A is removed. Assume the beam is a slender rod of negligible thickness. Please don't use angle measurements when solving. Use the 3-4-5 triangle to solve, if that makes sense. Thank you! Choutranco impgo toutarrow_forwardR ft Rft P lb The block of weight 131 lb is pushed with a force of P = 46 lb on top of two cylindrical rollers with a weight of 32 lb and a radius of R = 1.91 ft. Determine the block's speed after it has been moved 1.48 ft to the left. The block is originally at rest. No slipping occurs. Calculate your answer to two decimal places. Report your answer in ft/s.arrow_forward
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