mi Q2) Two masses are attached by a rope; mı-2.00 kg is hanging off the edge...
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...
Consider two masses: Mi=2.0 kg and M2 =1.5 kg. Mass Mı moves on a horizontal surface where the coefficient of kinetic friction 4k = 0.40. Mass M2 is hanging freely. Two masses are connected by a strong cord of negligible mass that extends over a pulley. M = 2.0 kg 2 MK = 0.40 My = 1.5 kg a) Draw Free Body Diagrams for the two objects b) Write the equations for the two masses in the direction of motion...
3. [8] The two blocks shown have masses of mı = 25 kg and m2 = 20 kg. Neglect the masses of the pulleys and the effect of friction in the pulleys. The coefficients of friction between m, and the horizontal surface are us = 0.3 and p = 0.25. (a) [2 marks] Draw FBD and KD for each block. (b) [6 marks] Determine the acceleration of my and the tension in the cable. m
Problem #1 m1 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 o...
Problem #1 m1 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 x = 0.15. The incline is at the angle =...
Two masses, m1=8 kg and m2 are connected by a cable so that m1 is a height h from the bottom of a cliff. m2 is on a flat plateau above the cliff with a coefficient of friction is 0.5. The friction just allows m1 to keep from falling. What is the mass m2 in kg .
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley Assume that the rope and pulley are massless, and that there is no friction in the pulley. If the masses have the values m 19.7 kg and m2 12.7 kg, find the magnitude of their acceleration a and the tension T in the rope. Use g 9.81 m/s2. Number a- m/s Number
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley. Assume that the rope and pulley are massless, and that there is no friction in the pulley. If the masses have the values m1 = 20.3 kg and m2 = 12.5 kg, find the magnitude of their acceleration a and the tension T in the rope. Use g = 9.81 m/s2. 2 answers in the rope. Use g 9.81 m/s Number...
Two masses, m and M, of 1.0 and 3.0 kg, respectively, are connected by rope passing through a pulley. The mass m is on an inclined plane without friction making an angle 30o with the horizontal. The mass M is on a horizontal plane without friction. The pulley, located between the two masses, is of negligible mass and offers no friction for the rope. A force, Fapp, is applied to the mass M, as illustrated below. a. Considering a module...
please both. thanks. Capture10.PNG 'Two masses mi = 10 kg and m2-8 kg are attached with a massless string and are arranged as in the figure bellow. m2 is on a horizontal table with coefficient of kinetic friction / = 0.25. Thea sydtem is cceleration of the two mass 5 a) a 2.82 m/s b) a 2.55 m/s2. c) a= 4.33 ml/s2 d) a = 1.80m/s 2. e) a = 3.25 m/s". Mk 20.2S noa,T tr Capture11.PNG sIn question 14)...