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Q1. Given the situation as shown in the figure. M1-5Kg and M2-10kg. Assume there is no...
Q1. Given the situation as shown in the figure. M1-5Kg and M2-10kg. Assume there is no...
Q1. Given the situation as shown in the figure. M1-5Kg and M2-10kg. Assume there is no friction M1 M2 300 a. Draw one Free Body Diagram for each object. Draw them on above diagram. 10points b. For each object and each direction, write down F-ma for each object 10 points c. Solve the set of equations and find the acceleration of the boxes. 10 points
Q2. Two objects of unequal masses, M-5kg and m 2 kg are connected by a very...
Q2. Two objects of unequal masses, M-5kg and m 2 kg are connected by a very light cord passing over an ideal pulley of negligible mass. When released, the system accelerates with acceleration a, and friction is negligible. The tension of the string is T Draw one Free Body Diagram for each object. Draw them on above diagram 5 points a. b. For each object and each direction, write down F-m5 points c. Solve the set of equations and find...
Q2. Two objects of unequal masses, M-Skg and m-2 kg are connected by a very light...
Q2. Two objects of unequal masses, M-Skg and m-2 kg are connected by a very light cord passing over an ideal pulley of negligible mass. When released, the system accelerates with acceleration a and friction is negligible. The tension of the string is T. a. Draw one Free Body Diagram for cach object. Draw themn above diagram 5 points b. For each object and each direction, write down yF- points c. Solve the set of equations and find the acceleration...
3. In the system below, blocks of masses m 10Kg and m2 = 30 Kg are...
3. In the system below, blocks of masses m 10Kg and m2 = 30 Kg are linked by a massless string through a massless and frictionless pulley The coefficient of mj m2 kinetic friction between the inclined plane and mt is 0.4. 28* a) Draw a free body diagram for each mass individually. Find the magnitude of the acceleration of the two masses. b) プm29-mi Find the tension in the string c) T*133 d) If the string is cut, find...
1) In the figure above an object is attached to a ceiling and a wall with...
1) In the figure above an object is attached to a ceiling and a wall with ropes. The rope attached to the wall is horizontal The weight of the object is 44N. The tension in the line attached to the wall is 9.9N. Express the tension on the object by the rope attached to the ceiling as a vector Give variable legend: The model for this problem in component form: Answer in vector form: A B 6) The two boxes...
02. Two objects of unequal masses, M -Skg and ms2 ko are connected by a very...
02. Two objects of unequal masses, M -Skg and ms2 ko are connected by a very light cond passing ower is negligible. The tension of the string is T system accelerates with acceleration a and friction Draw one Free Body Diagram for each object. Draw them on above diagram S points a. b. For each object and each direction, write wn -ma S points c. Solve the set of equations and find the acceleration of the boxes. 5 points d....
Two masses are connected by a string over the edge of a table by a frictionless...
Two masses are connected by a string over the edge of a table by a frictionless pulley. The horizontal table holds the second mass m2, and the first mass m1 is suspended off of the pulley. Assume the table is frictionless unless specified otherwise. For each part of this problem: Draw free body diagrams of both objects and write down equations for Newtons second law for both masses. (a) [10 points] Calculate the acceleration if m1 = 5 kg and...
1. Draw the forces acting on mı and m2 in the diagram below. m2 > m1...
1. Draw the forces acting on mı and m2 in the diagram below. m2 > m1 Determine the acceleration of the system. Show your work. 2. An accelerating force of 500 N changes an object from 40 m/s to 60 m/s in a distance of 100 m. The mass is 25 kg. Determine the force of friction acting opposite of this force. Draw your free body diagram.
We want to lower crate m1 down the ramp shown below with an acceleration of 1.25m/s²....
We want to lower crate m1 down the ramp shown below with an
acceleration of 1.25m/s². There is no friction on the ramp, but the
level side has a coefficient of friction of 0.30.
a. Draw the free-body diagram for each of the crates shown.
b. Find the value of m3, in order to achieve the acceleration
above, if m1 = 100kg and m2 = 20.0kg.
c. Find the tension on the cable between m3 and m2.
d. Find the...
Two blocks with mass M1 and M2 are arranged as shown with M sitting on an inclined plane
Two blocks with mass M1 and M2 are arranged as shown with M sitting on an inclined plane and connected with a massless unstretchable string running over a massless, frictionless pulley to M2, which is hanging over the ground. The two masses are released initially from rest. The inclined plane has coefficients of static and kinetic friction μs and μk respectively where the angle θ is small enough that mass M1 , would remain at rest due to static friction if...
Q1. Given the situation as shown in the figure. M1-5Kg and M2-10kg. Assume there is no friction M1 M2 300 a. Draw one Free Body Diagram for each object. Draw them on above diagram. 10points b. For each object and each direction, write down F-ma for each object 10 points c. Solve the set of equations and find the acceleration of the boxes. 10 points
Q2. Two objects of unequal masses, M-5kg and m 2 kg are connected by a very light cord passing over an ideal pulley of negligible mass. When released, the system accelerates with acceleration a, and friction is negligible. The tension of the string is T Draw one Free Body Diagram for each object. Draw them on above diagram 5 points a. b. For each object and each direction, write down F-m5 points c. Solve the set of equations and find...
Q2. Two objects of unequal masses, M-Skg and m-2 kg are connected by a very light cord passing over an ideal pulley of negligible mass. When released, the system accelerates with acceleration a and friction is negligible. The tension of the string is T. a. Draw one Free Body Diagram for cach object. Draw themn above diagram 5 points b. For each object and each direction, write down yF- points c. Solve the set of equations and find the acceleration...
3. In the system below, blocks of masses m 10Kg and m2 = 30 Kg are linked by a massless string through a massless and frictionless pulley The coefficient of mj m2 kinetic friction between the inclined plane and mt is 0.4. 28* a) Draw a free body diagram for each mass individually. Find the magnitude of the acceleration of the two masses. b) プm29-mi Find the tension in the string c) T*133 d) If the string is cut, find...
1) In the figure above an object is attached to a ceiling and a wall with ropes. The rope attached to the wall is horizontal The weight of the object is 44N. The tension in the line attached to the wall is 9.9N. Express the tension on the object by the rope attached to the ceiling as a vector Give variable legend: The model for this problem in component form: Answer in vector form: A B 6) The two boxes...
02. Two objects of unequal masses, M -Skg and ms2 ko are connected by a very light cond passing ower is negligible. The tension of the string is T system accelerates with acceleration a and friction Draw one Free Body Diagram for each object. Draw them on above diagram S points a. b. For each object and each direction, write wn -ma S points c. Solve the set of equations and find the acceleration of the boxes. 5 points d....
1. Draw the forces acting on mı and m2 in the diagram below. m2 > m1 Determine the acceleration of the system. Show your work. 2. An accelerating force of 500 N changes an object from 40 m/s to 60 m/s in a distance of 100 m. The mass is 25 kg. Determine the force of friction acting opposite of this force. Draw your free body diagram.
We want to lower crate m1 down the ramp shown below with an
acceleration of 1.25m/s². There is no friction on the ramp, but the
level side has a coefficient of friction of 0.30.
a. Draw the free-body diagram for each of the crates shown.
b. Find the value of m3, in order to achieve the acceleration
above, if m1 = 100kg and m2 = 20.0kg.
c. Find the tension on the cable between m3 and m2.
d. Find the...
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