3. In the system below, blocks of masses m 10Kg and m2 = 30 Kg are...
Two blocks of mass m1 and m2 > m1 are drawn above. The block m1 sits on a frictionless inclined plane tipped at an angle θ with the horizontal as shown. Block m2 is connected to mı by a massless unstretchable string that runs over a massless, frictionless pulley to hang over a considerable drop. At time t = 0 the system is released from rest. a) Draw a force/free body diagram for the two masses. b) Find the magnitude of the...
Two blocks are connected by a massless string over a pulley. Block 1 has mass mi=20kg and is on horizontal table Block 2 has toas my = 10kg and is on a ramp inclined at angle A = 30" The pulley has a mass M-15 kg and radius R = 20 and can be treated like a disk with uniform a distribution. The string never slips against the pulley. mi a) Supposem travels 4 m to the right when m2...
Two blocks with masses m1 and m2 are connected by a massless string over a frictionless pulley. Block 1 sits on a frictionless horizontal surface and block 2 sits on a plane inclined at an angle θ above the horizontal. The coefficient of friction between block 2 and the incline is µk. The pulley, which is a uniform disk, has a mass mp and a radius R. When you release the blocks, both blocks slide without the string slipping on...
Two blocks of masses M1 and M2 are connected by a massless string that passes over a massless pulley as shown in the figure. M2. which has a mass of 13.5 kg, rests on a long ramp of angle θ=15.5°. Friction can be ignored in this problem. Find the value of the mass Mi for which the two blocks are in equilibrium (i.e., not accelerating).
theta is 90 degrees 3. Two boxes with the masses m =3kg and m2 = 10kg are connected by a massless rope over a pulley that is made in the shape of a disk with radius R=15cm and mass M=800g, as shown in the Figure. The coefficient of kinetic friction for the motion of either box on both horizontal and sloped surfaces is 0.12. The boxes are released and allowed to move. (a) Find force of tension between box 2...
w Expand Question 13 of 20 Two blocks with masses M and M2 are connected by massless string that passes over a massless pulley as shown Mi has a mass of 2.25 kg and is on an incline of o,-41.5 with coefficient of kinetic friction M-0205. M2 has a mass of 525 kg and is on an incline of 33.5 with coefficient of kinetic friction M 0.105 Find the magnitude of the acceleration of M2 down the incline. magnitude of...
Atwood's machine consists of blocks of masses mi -8.8 kg and m2 - 17.5 kg attached by a cord running over a pulley as in the figure below. The pulley is id cylinder with mass M-7.30 kg and radiusr 0.200 m. The block of mass m2 is allowed to drop, and the cord turns the pulley without slipping. (a) Why must the tension T2 be greater than the tension T1? Score: 1 out of Comment: (b) What is the acceleration...
Two blocks with masses Mi and M2 are connected by a massless string that passes over a massless pulley as shown. Mi has a mass of 2.25 kg and is on an incline of o, 49.5, with coefficient of kinetic friction μί-0205. M2 has a mass of 6.85 kg and is on an incline of Oz 35.5. with coefficient of kinetic friction μ,-0.105. Find the magnitude of the acceleration of M2 down the incline magnitude of M2 m/s Figure is...
Two blocks of masses M and M2 are connected by a massless string that passes over a massless pulley as shown in the figure. M2, which has a mass of 25.5 kg, rests on a long ramp of angle θ-33.5. Friction can be ignored in this problem Find the value of the mass M1 for which the two blocks are in equilibrium (i.e. not accelerating) Number kg figure not to scale
Problem #1 mi m2 Two blocks mı = 4 kg and m2 = 9 kg are initially arranged as shown in the figure. They are tied to a massless rope going around the pulley. The pulley has a form of a cylinder with a mass of M = 8 kg and radius of R = 40 cm. Both the incline and the horizontal surface have a coefficient of kinetic friction ulk = 0.15. The incline is at the angle 0...