Masses of 1.0 kg, 2.0 kg, and 3.0 kg are each separately subject to a net...
Masses of 1.0 kg, 2.0 kg, and 3.0 kg are each separately subject to a net force in the positive x direction of 22 N. What is the acceleration of the center of mass of the system?
I did 22N/ 1+2+3 = 3.67 m/s^2 but it is saying its wrong. Am I missing something?
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Masses of 1.0 kg, 2.0 kg, and 3.0 kg are each separately subject
to a net...
Three small masses are positioned at the following coordinates: 3.0 kg at (3.0 m, 2.0 m);...
Three small masses are positioned at the following coordinates: 3.0 kg at (3.0 m, 2.0 m); 4.0 kg at (0.0 m, -1.0 m); and 5.0 kg at (5.0 m, -7.0 m). What are the coordinates of the center of mass (or center of gravity) of this system?
Two 2.0 kg masses are 2.0 m apart on a frictionless table. Each has 1.0 μC...
Two 2.0 kg masses are 2.0 m apart on a frictionless table. Each has 1.0 μC of charge. What is the magnitude of the electric force on one of the masses? What is the initial acceleration of each mass if they are released and allowed to move?
4. (a) Three point masses are attached to a massless rigid rod. Mass m,-1.0 kg is...
4. (a) Three point masses are attached to a massless rigid rod. Mass m,-1.0 kg is located at x = 1.0 cm, mass m2-2.0 kg at x = 2.0 cm and mass m,-3.0 kg at x-3.0 m. Find the center of mass of the system. (b) Find the center of mass of the four masses as below. mi 2.0 kg at point (1,2) cm; m 3.0 kg at point (2,-3) cm; m -4.0 kg at point (3,-4) cm and m...
Three masses are positioned at the following coordinates 3.0 kg at (4.0 m, -5.0 m); 6.0...
Three masses are positioned at the following coordinates 3.0 kg at (4.0 m, -5.0 m); 6.0 kg at (-7.0 m, 3.0 m); and 1.0 kg (2.0 m, 2.0 m). Calculate the center of mass of the system.
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Two masses, one is m1=2.0 kg and another one m2 = 3.0 kg are connected by a thin string running over a massless pulley. The mass m2 is hanging above the ground and pulling another mass over a 57.27 degree ramp with acceleration 0.7 m/s2. calculate mu_k.
IL. I To 10 kg masses are 1.0 m apart on a NT Each has +1.0...
IL. I To 10 kg masses are 1.0 m apart on a NT Each has +1.0 uC of charge. frictionless table. a. What is the magnitude of the electric force on one of the masses? b. What is the initial acceleration of each mass if they are released and allowed to move?
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong...
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong cord of negligible mass that extends over a frictionless pulley. Mass M is placed on a surface that makes an angle of 30° with respect to the horizontal, while mass M2 is hanging freely. The coefficient of kinetic friction between the surface and the mass is Hi = 0.25. a) Draw Free Body diagrams for the two masses b) Write the equations for the...
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong...
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong cord of negligible mass that extends over a frictionless pulley. Mass M is placed on a surface that makes an angle of 30° with respect to the horizontal, while mass M2 is hanging freely. The coefficient of kinetic friction between the surface and the mass is hk = 0.25. a) Draw Free Body diagrams for the two masses b) Write the equations for the...
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong...
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong cord of negligible mass that extends over a frictionless pulley. Mass M is placed on a surface that makes an angle of 30° with respect to the horizontal, while mass M, is hanging freely. The coefficient of kinetic friction between the surface and the mass is ilk = 0.25. a) Draw Free Body diagrams for the two masses b) Write the equations for the...
Consider two masses: Mi=2.0 kg and M2 =1.5 kg. Mass Mı moves on a horizontal surface...
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4. (a) Three point masses are attached to a massless rigid rod. Mass m,-1.0 kg is located at x = 1.0 cm, mass m2-2.0 kg at x = 2.0 cm and mass m,-3.0 kg at x-3.0 m. Find the center of mass of the system. (b) Find the center of mass of the four masses as below. mi 2.0 kg at point (1,2) cm; m 3.0 kg at point (2,-3) cm; m -4.0 kg at point (3,-4) cm and m...
IL. I To 10 kg masses are 1.0 m apart on a NT Each has +1.0 uC of charge. frictionless table. a. What is the magnitude of the electric force on one of the masses? b. What is the initial acceleration of each mass if they are released and allowed to move?
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong cord of negligible mass that extends over a frictionless pulley. Mass M is placed on a surface that makes an angle of 30° with respect to the horizontal, while mass M2 is hanging freely. The coefficient of kinetic friction between the surface and the mass is Hi = 0.25. a) Draw Free Body diagrams for the two masses b) Write the equations for the...
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong cord of negligible mass that extends over a frictionless pulley. Mass M is placed on a surface that makes an angle of 30° with respect to the horizontal, while mass M2 is hanging freely. The coefficient of kinetic friction between the surface and the mass is hk = 0.25. a) Draw Free Body diagrams for the two masses b) Write the equations for the...
Consider two masses, M = 3.0 kg and M2 = 2.5 kg, connected by a strong cord of negligible mass that extends over a frictionless pulley. Mass M is placed on a surface that makes an angle of 30° with respect to the horizontal, while mass M, is hanging freely. The coefficient of kinetic friction between the surface and the mass is ilk = 0.25. a) Draw Free Body diagrams for the two masses b) Write the equations for the...
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...
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