Two masses mA = 2 kg and mB = 1 kg are connected by a stnall pulley Mass maks on an inclined plane at angle e-π/4 radians, and mB is allowed to hang freely. (a) Suppose the string has length 10 m....
Problem 1 (50 points 2 kg and mg 1 kg are connected by a small pulley. Mass ma is on an inclined plane at angle in which the pulley ls at the origin. What ls the Two masss m4 θ=r/4 radians, and mg is allowed to hang freely (a) Suppose the string has length 10 m. Take a potential energy of the system as a function of the height of mass mg? (b) Find the of which way the masses...
Please answer ALL parts in SIMPLEST FORM! NO explanations are needed, THANK YOU!!! Problem 1 (50 points) masses mA -2 kg and mg 1 kg are connected by a small pulley. Mass ma is on an inclined plane at angle 8-/4 radians, and ma is allowed to hang freely (a) Suppose the string has length potential energy of the system as a function of the height of mass mg? (b) Find the acceleration of mass ma (either which way the...
Please answer ALL parts in SIMPLEST FORM! NO explanations are needed, THANK YOU!!! Problem 1 (50 points) masses mA 2 kg and mg -1 kg are connected by a small pulley. Mass ma is on an inclined plane at angle θ π/4 radians, and ms is allowed to hang freely (a) Suppose the string has length potential energy of the system as a function of the height of mass ma? (b) Find the acceleration of mass ma (either which way...
Two masses, mA = 34.0 kg and mB = 40.0 kg , are connected by a rope that hangs over a pulley (as in the figure (Figure 1)). The center of the pulley is hollowed out so that you may assume all the mass of the pulley is in the rim. The radius of the pulley is 0.381 m and the mass of the pulley is 3.10 kg . Initially mA is on the ground and mB rests 2.50 m...
Two masses, Ma= 35.0kg and Mb = 40.0 kg, are connected by a rope that hangs over a pulley (as in the figure ). The pulley is a uniform cylinder of radius 0.381m and mass 3.4kg . Initially Ma is on the ground and Mb rests 2.3m above the ground. If the system is released, use conservation of energy to determine the speed of just before it strikes the ground. Assume the pulley bearing is frictionless.
Problem 2: (6 pts) ) Two masses are connected by a string as shown in the figure below. Mass mB = 2.00 kg moves up while mA 12.0 kg moves down a frictionless inclined. The pulley is frictionless and has a mass M-2.00 kg, and a radius R-0.200 m (1= ½ MR) (a) Draw the free body diagram for the masses and pulley separately. (b) Use Newton's Second Law of Motion to find the resulting acceleration (2pts) (2pts) (2pts) of...
A mass m = 1 kg slides down a θ = 30◦ inclined plane from a height of 5 m. At the bottom of the incline, it collides with another mass M = 3 kg, and the latter is initially at rest as shown in Fig. 3. The surface to the right of the inclined plane on which the 3 kg (green) mass sits is horizontal. (a) The inclined surface is frictionless. Conserve energy to find the velocity of the...
[2] A block with mass ma is placed on an inclined plane with slope angle α and is connected to a second hinging block with mass ma > ma by a massless cord passing over a small frictionless pulley (see figure). The coefficient of kinetic friction between mass mA and the incline is negligible. Initially the masses are at rest, with mass mA at the bottom of the incline and mass mg a height h above the table supporting the...
(0%) Problem 12: Ablock of mass m 2.1 kg is on an inclined plane with a coefficient of friction u 0.36, at an initial height h = 0.44 m above the ground. The plane is inclined at an angle 0 51°. The block is then compressed against a spring a distance Ax 0.17m from its equilibrium point (the spring has a spring constant of ky =27 N/m) and released. At the bottom of the inclined plane is a horizontal plane...
A block of mass m = 3.5 kg is on an inclined plane with a coefficient of friction μ1 = 0.31, at an initial height h = 0.53 m above the ground. The plane is inclined at an angle θ = 54°. The block is then compressed against a spring a distance Δx = 0.11 m from its equilibrium point (the spring has a spring constant of k1 = 39 N/m) and released. At the bottom of the inclined plane...