Three 92.4 g masses are connected in a triangular shape by massless rigid wires as shown in the first image (which is not drawn to scale). The coordinates of each mass are given in centimeters. Mass A is located at (0,0), mass B is at (14.2,22.5), and mass C is at (16.3,15.4). Find the ?- and ?‑coordinates of the center of mass of the triangular object. ?cm = ? cm ycm = ? cm Two more 92.4 g masses are connected by a straight piece of wire and affixed to the original configuration as shown. The coordinates of mass D are (0,−27.8) and the coordinates of mass E are (0,27.8). Find the ?- and ?‑coordinates of the new center of mass of the combined object. ?cm = ? cm ycm = ? cm

Three 92.4 g masses are connected in a triangular shape by massless rigid wires as shown in the first image (which is not drawn to scale). The coordinates of each mass are given in centimeters. Mass A is located at (0,0), mass B is at (14.2,22.5), and mass C is at (16.3,15.4). Find the ?- and ?‑coordinates of the center of mass of the triangular object. ?cm = ? cm ycm = ? cm Two more 92.4 g masses are connected by a straight piece of wire and affixed to the original configuration as shown. The coordinates of mass D are (0,−27.8) and the coordinates of mass E are (0,27.8). Find the ?- and ?‑coordinates of the new center of mass of the combined object. ?cm = ? cm ycm = ? cm

Similar questions

The first part of the question has been answered. Please help solve the other part in the second image
Please solve 1A and 1B
Please don't provide handwritten solution ......
Bart, mass 35.7 kilograms, and Milhouse, mass 27.6 kilograms, play on the schoolyard seesaw. If Bart and Milhouse want to sit 3.3 meters apart, how far from the center of the seesaw should Bart sit? Include units in your answer.
Please please answer as fast as possible please
Fill in the data as you complete the lab. In the table, m represents mass and r represents the distance from the fulcrum. Use a zero or a dash (–) when there is no second object on one side of a problem. Include units with all data. The image of the balancing act is scenario 2. The object on the right is called Mystery A.
Please solve 3A,B,and C
How do you find part C? The answer is 54 degree
Use the worked example above to help you solve this problem. A block of mass m1 = 1.72 kg, initially moving to the right with a velocity of +3.95 m/s on a frictionless horizontal track, collides with a massless spring attached to a second block of mass m2 = 2.01 kg moving to the left with a velocity of −2.83 m/s. The spring has a spring constant of 6.33 x102 N/m. (a) Determine the velocity of block 2 at the instant when block 1 is moving to the right with a velocity of +3.00 m/s. (Indicate the direction with the sign of your answer.) (b) Find the compression of the spring.