Consider now the double-pulley system with masses M₁, M2, and M3 shown to the right. Find the accelerations of the masses. Loo M₁ M₂ Ma
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- Help me with this hard complexed question, detailed, well explained and written on a sheet please it will be very helpful. Thank you!The class I'm taking is physics for scientists and engineers! I am completely stuck. Need help. I have attached the problem. Please view attachment before answering. If you can please explain your answer so I can fully understand. Thank you so much!This is a Race Track Interactive Activity. I need help to aswer this question please. I uploaded easy track and medium track. Did you need to keep applying a force to keep the car turning on the track? What direction did you have to apply that force? Be specific and don’t just say “left or right.”
- Assume the three blocks (m1= 1.0 kg, m2 = 2.0 kg,, and m3 = 5 kg) portrayed in the figure below move on a frictionless surface and a force F = 48 N acts as shown on the 3.5 kg block. Determine the acceleration given this system (in m/s2to the right). Determine the tension in the cord connecting the 5kg and the 1.0 kg blocks (in N). Determine the force exerted by the 1.0 kg block on the 2.0 kg block (in N). What If?How would your answers to parts (a) and (b) of this problem change if the 0 kg block was now stacked on top of the 1.0 kg block? Assume that the 2.0 kg block sticks to and does not slide on the 1.0 kg block when the system is accelerated. (Enter the acceleration in m/s2 to the right and the tension in N.)A child spins a rock horizontally on string with speed v with radius rm = 0.25 kgr = 1.36 mT = .25 s Calculate the velocity v, acceleration a, and Net Force Fnet. List of known/unknown values, general equation used to solve (without numbers), algebra to rearrange the equation (without numbers), final answer with units.Use the worked example above to help you solve this problem. A car travels at a constant speed of 35.0 mi/h (15.6 m/s) on a level circular turn of radius 40.0 m. What minimum coefficient of static friction, ?s, between the tires and the roadway will allow the car to make the circular turn without sliding?
- In the shown pulley system, block B starts moving from rest to the right. At the shown instant, the weight W has moved, up m with a variable velocity v(t) = 0.4t+0.5t m/s. (i) drive an equation for the relative position sa/A: (i) Determine the relative velocity between block A and B at the shown instant when the weight acceleration =1.1. Note at the shown isntant x 0.8, y 1.4.The cables shown hold the 500 kg mass in equilibrium. Find FBD, Cartesian form of all force vectors, and write out equilibrium equations to solve for unknown tensions in cables.