What is the magnitude of the acceleration of a modified Atwood machine if the mass of the cart is 5 kg and the hanging mass is 7 kg? (Use
g = 9.8 m/s2.
Express your answer to one decimal point.)
What is the magnitude of the acceleration of a modified Atwood machine if the mass of...
What is the magnitude of the acceleration of a modified Atwood machine if the mass of the cart is 3 kg and the hanging mass is 16 kg? (Use g = 9.8 m/s2. Express your answer to one decimal point.)
An Atwood machine is constructed using a hoop with spokes of negligible mass. The 2.3 kg mass of the pulley is concentrated on its rim, which is a distance 23.5 cm from the axle. The mass on the right is 1 kg and on the left is 1.65 kg. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the linear acceleration a of the hanging masses?
Very confused on how to solve 013 10.0 points An Atwood machine is constructed using two wheels (with the masses concentrated at the rims). The left wheel has a mass of 2.4 kg and radius 20.32 cm. The right wheel has a mass of 2.6 kg and radius 26.4 cm. The hanging mass on the left is 1.74 kg and on the right 1.53 kg. m. 4 What is the acceleration of the system? The acceleration of gravity is 9.8...
Problem 9.38 10 of 19 > Review Constants Periodic Table In an Atwood machine, block 1 with mass mi and a loss massive block 2 with mass are connected by a string that passes over a solid cylindrical pulley of mass M and radius R. Usemi 0.20 k m 0.16 kg. M = 0.50 kg, and R-0.10 m. (Figure 1) Determine the rotational inertia of the pulley Express your answer with the appropriate units. 1. Value Units Figure Submit Rest...
In the modified Atwood machine shown, mass 1 has a mass of 31 kg and mass 2 has a mass of 19 kg. If force 2 is 25 Newtons, what does the magnitude of force 1 need to be, in Newtons, such that mass 1 accelerates upward at 2.1 m/s^2?
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
013 10.0 points An Atwood machine is constructed using two wheels (with the masses concentrated at the rims). The left wheel has a mass of 2.5 kg and radius 23.46 cm. The right wheel has a mass of 2.7 kg and radius 33.29 cm. The hanging mass on the left is 1.74 kg and on the right 1.31 kg. a. m3 What is the acceleration of the system? The acceleration of gravity is 9.8 m/s. Answer in units of m/s
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...
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley. The pulley can be approximated by a uniform disk with mass m, = 5.53 kg and radius rp = 0.150 m. The hanging masses are m = 17.1 kg and mp = 12.1 kg. Calculate the magnitude of the masses' acceleration a and the tension in the left and right ends of the rope, T and Tr, respectively. m m/s2 a...
The Atwood machine consists of two masses hanging from the ends of a rope that passes over a pulley. The pulley can be approximated by a uniform disk with mass m = 5.13 kg and radius rp = 0.350 m. The hanging masses are m. = 19.7 kg and mx = 13.3 kg. Calculate the magnitude of the masses' acceleration a and the tension in the left and right ends of the rope, Ti, and Tr, respectively. mL m/s2 a...