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in). Consider the following diagram. There are two masses (i.e., mass mand mass M hanging in...
Consider the system of two masses connected by weightless strings on the right: A box of...
Consider the system of two masses connected by weightless strings on the right: A box of mass m1=1kg sits on an inclined, frictionless surface with an angle of a = 30 degrees. A second mass hangs from the ceiling with an angle of q = 30 degrees. A string parallel to the inclined surface connects both masses. The system is in equilibrium and does not move. 1) Draw a free body diagram of mass 1 and mass 2 and label...
2. Atwood's Table with Two Hanging Masses You have table of width L, masses m1, m2,...
2. Atwood's Table with Two Hanging Masses You have table of width L, masses m1, m2, and m3, two frictionless pulleys, and ideal string. Placing m2 on the table, you attach a bit of string to mass m1 the left pulley, to the left side of m2. Similarly, you hang mass m3 from the right side of m2 using the pulley on the right side of the table. The coefficient of friction of the table is mu. The acceleration of...
Problem 2: (35 points) Three masses of masses m, = 2kg , m, = 4kg ,...
Problem 2: (35 points) Three masses of masses m, = 2kg , m, = 4kg , and m, = 5kg are connected as shown in the figure. The incline has a rough surface, with a coefficient of kinetic friction 4 = 0.1, and an angle of inclination = 30. a) Draw the Free-Body Force diagram for each mass. mz 30° b) Calculate the frictional force acting on the mass m, my c) Find the acceleration a of the system. mi...
1. (10 pts) A uniform 30.0-kg scaffold of length 3.0 m is supported by two light cables, as shown in the figure. A painter A of mass "m" kg stands 0.5 m from the left end of the scaffold....
1. (10 pts) A uniform 30.0-kg scaffold of length 3.0 m is supported by two light cables, as shown in the figure. A painter A of mass "m" kg stands 0.5 m from the left end of the scaffold. If the tension in the left cable cable is twice that in the right cable, find the tensions in the cables and the mass of the painter A. (Answer the following questions to solve this problem) a. (2 pts) Draw the...
aestion 4 A block of mass m is suspended by two model strings numbered 1 and...
aestion 4 A block of mass m is suspended by two model strings numbered 1 and 2 that make angles of 14 and /3 to the horizontal respectively as shown in Figure Q4. Model the block as a particle. The magnitude of the acceleration due to gravity is g. 1 A m cora Figure 04 (a) Draw the force diagram, indicating all the forces acting on the block and choosing appropriate axes. (3 marks) (b) Apply vectors, write down the...
Question 1: Hanging block (12 points) A horizontal rod of mass M and length L is...
Question 1: Hanging block (12 points) A horizontal rod of mass M and length L is attached to a hinge and supported at its end by a massless wire oriented at an angle o relative to the rod. A block of mass 4M is connected to the rod at a distance L/3 from the hinge. The system is in static equilibrium. (a) [2 points) Question: Draw the free-body-diagram, i.e., all external forces acting on the block-rod system. Answer: (b) [7...
4. Consider two blocks of masses m 2.00 kg and m2-3.00 kg which are connected by...
4. Consider two blocks of masses m 2.00 kg and m2-3.00 kg which are connected by a string. They are both resting in static equilibrium on opposite inclines of a frictionless triangle with angles 0 60° for m and 02 for m2 which needs to be determined in this problem. a. Draw a sketch of this problem showing the masses and the angles of the inclines b. Draw the free body diagrams for both masses, indicating which coordinate system you...
A block of mass m2 = 38 kg on a horizontal surface is connected to a...
A block of mass m2 = 38 kg on a horizontal surface is connected to a mass m2 = 20.1 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string of negligible mass passing over a frictionless pulley. The coefficient of kinetic friction between m, and the horizontal surface is 0.24. m (a) What is the magnitude of the acceleration (in m/s2) of the hanging mass? 3.39 Did you draw a free-body...
When two objects of equal unequal mass are hung vertically over a frictionless pulley of negligible...
When two objects of equal unequal mass are hung vertically over a frictionless pulley of negligible mass, as in the figure below, the arrangement is called an Atwood machine. Assume that m_2 > m_1. (a) Draw the free body diagram for each mass. Indicate the direction of its acceleration off to the side. (b) Find an expression for the acceleration of the system. (c) Find an expression for the tension in the cord.
Problem #4 In the diagram below, a 3.00 kg mass is attached to a rod 2.00...
Problem #4 In the diagram below, a 3.00 kg mass is attached to a rod 2.00 m long by two strings which are each 1.50 m in length. The rod completes one turn every 1.40 s, so that the mass completes one turn every 1.40 s. (a) Find the radius of the circle traced out by the mass. (b) Draw a free-body diagram for the ball, including all force vectors and the acceleration vector. (c) Find the tension in the...
Problem 2: (35 points) Three masses of masses m, = 2kg , m, = 4kg , and m, = 5kg are connected as shown in the figure. The incline has a rough surface, with a coefficient of kinetic friction 4 = 0.1, and an angle of inclination = 30. a) Draw the Free-Body Force diagram for each mass. mz 30° b) Calculate the frictional force acting on the mass m, my c) Find the acceleration a of the system. mi...
1. (10 pts) A uniform 30.0-kg scaffold of length 3.0 m is supported by two light cables, as shown in the figure. A painter A of mass "m" kg stands 0.5 m from the left end of the scaffold. If the tension in the left cable cable is twice that in the right cable, find the tensions in the cables and the mass of the painter A. (Answer the following questions to solve this problem) a. (2 pts) Draw the...
aestion 4 A block of mass m is suspended by two model strings numbered 1 and 2 that make angles of 14 and /3 to the horizontal respectively as shown in Figure Q4. Model the block as a particle. The magnitude of the acceleration due to gravity is g. 1 A m cora Figure 04 (a) Draw the force diagram, indicating all the forces acting on the block and choosing appropriate axes. (3 marks) (b) Apply vectors, write down the...
Question 1: Hanging block (12 points) A horizontal rod of mass M and length L is attached to a hinge and supported at its end by a massless wire oriented at an angle o relative to the rod. A block of mass 4M is connected to the rod at a distance L/3 from the hinge. The system is in static equilibrium. (a) [2 points) Question: Draw the free-body-diagram, i.e., all external forces acting on the block-rod system. Answer: (b) [7...
4. Consider two blocks of masses m 2.00 kg and m2-3.00 kg which are connected by a string. They are both resting in static equilibrium on opposite inclines of a frictionless triangle with angles 0 60° for m and 02 for m2 which needs to be determined in this problem. a. Draw a sketch of this problem showing the masses and the angles of the inclines b. Draw the free body diagrams for both masses, indicating which coordinate system you...
A block of mass m2 = 38 kg on a horizontal surface is connected to a mass m2 = 20.1 kg that hangs vertically as shown in the figure below. The two blocks are connected by a string of negligible mass passing over a frictionless pulley. The coefficient of kinetic friction between m, and the horizontal surface is 0.24. m (a) What is the magnitude of the acceleration (in m/s2) of the hanging mass? 3.39 Did you draw a free-body...
When two objects of equal unequal mass are hung vertically over a frictionless pulley of negligible mass, as in the figure below, the arrangement is called an Atwood machine. Assume that m_2 > m_1. (a) Draw the free body diagram for each mass. Indicate the direction of its acceleration off to the side. (b) Find an expression for the acceleration of the system. (c) Find an expression for the tension in the cord.
Problem #4 In the diagram below, a 3.00 kg mass is attached to a rod 2.00 m long by two strings which are each 1.50 m in length. The rod completes one turn every 1.40 s, so that the mass completes one turn every 1.40 s. (a) Find the radius of the circle traced out by the mass. (b) Draw a free-body diagram for the ball, including all force vectors and the acceleration vector. (c) Find the tension in the...
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