The uniform bar AD has a mass of 48 kg. The attached spring is unstretched when...
Problem 11.41 The uniform rod has a mass of 120 kg. The spring is unstretched when θ:45°. The spring is always in the horizontal position due to the roller guide at B. (Figure 1) Figure 〈 1of1 > 2 m k 500 N/m 2 m
Part A Block A has a mass mA and is attached to a spring having a stiffness k and unstretched length lo- Another block B, having a mass mB, is pressed against A so that the spring deforms a distance d. The coefficient of kinetic friction between the blocks and the ground is μk. (Figure 1) Assuming separation does occur what is the distance the blocks slide on the surface before they separate? Express your answer in terms of some...
Each spring has an unstretched length of 2 m and a stiffness of k = 300 N/m (Figure 1) Part A Determine the stretch in OA spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units. 30A = Value Units Submit Request Answer Part B Determine the stretch in OB spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to...
Part A The collar A, having a mass of 0.75 kg is attached to a spring having a stiffness of k = 300 N/m. When rod BC rotates about the vertical axis, the collar slides outward along the smooth rod DE The spring is unstretched when s 0. Neglect the size of the collar. (Figure 1) Determine the constant speed of the collar in order that s 100 mm, Express your answer to three significant figures and include the appropriate...
NO QUESTIONS DURING THE EXAM! e collar of negligible size has a mass of 0.25 kg and is attached to a spring having an unstretched and travels along (25 points) Th 9) length of 100 mm and an elastic constant of k 150 N/m. If the collar is released from rest at a the smooth guide as shown in the figure, determine its speed just before it strikes B Take g 10 m/s? 400 mm 200 mm
NO QUESTIONS DURING...
Part A The 26-kg disk is originally at rest, and the spring is unstretched. A couple moment of M-80 N·m is then applied to the disk as shown. The disk rolls without slipping. (Figure 1) Determine the angular velocity of the disc, measured counterclockwise, when its mass center G has moved 0.5 Im along the plane. Express your answer using three significant figures. Enter positive value if the angular velocity is counterclockwise and negative value if the angular velocity is...
Review 1 Constants Part A A spring has an unstretched length of 14 cm. When an 84 g ball is hung from it, the length increases by 7.0 cm. Then the ball is pulled down another 7.0 cm and released What is the spring constant of the spring? Express your answer using two significant figures k= N/m Submit Part B What is the period of the oscillation? Express your answer using two significant figures T- Submit Request Answer
An object of mass M = 2.00 kg is attached to a spring with spring constant k = 550 N/m whose unstretched length is L = 0.200 m , and whose far end is fixed to a shaft that is rotating with an angular speed of ω = 5.00 radians/s . Neglect gravity and assume that the mass also rotates with an angular speed of 5.00 radians/s as shown. (Figure 1)When solving this problem use an inertial coordinate system, as...
Part A A spring has an unstretched length of 15 cm. When an 85 g ball is hung from it, the length increases by 7.0 cm. Then the ball is pulled down another 7.0 cm and released. What is the spring constant of the spring? Express your answer in newtons per meter. N/m Submit Request Answer Part B What is the period of the oscillation? Express your answer in seconds. Submit Request Answer Provide Feedback
The 14-kg rod AB is pin-connected at A and subjected to a couple moment of M =15 N.m. The rod is released from rest when the spring is unstretched at 0 = 30°. As the rod rotates, the spring always remains horizontal, because of the roller support at C. (Figure 1) Figure < 1 of 1 > k=40 N/m WW 0.75 m Provic M15 N.m Part A Determine the rod'_s angular velocity, measured clockwise, at the instant 0 = 60°...