Torque: 10 pts Your answer must be in terms of the given variables shown in red....
2. [1pt] Answer True, False, or Cannot tell to each of the four statements below. E.g., if the answer to the first statement is 'true' and to the rest, cannot tell', enter TCCC. a. The solid cylinders and the cylindrical shells have the same mass, the same radius, and turn on frictionless axles. A rope is wrapped around each of them and is acted on as shown. Cylinder shell 3 has the smallest angular acceleration. b. Force F and force...
2. [1pt] Answer True, False, or Cannot tell to each of the four statements below. E.g., if the answer to the first statement is 'true' and to the rest, cannot tell', enter TCCC. a. A wheel turns on a frictionless axle. A string wrapped around the rim of the wheel is connected to a mass. The mass is released at =0 and hits the floor at t=1. The graph shows a possible o - t behaviour for this situation. b....
please answer CORRECTLY only if you are sure of your answer to
help me understand this thanks
3. A wheel starts from rest (at t = 0) and begins to rotate with constant angular acceleration a. The wheel rotates through 500 rad and reaches an angular velocity of 20 rad/s at time t. Find the time t. HINT: First find the angular acceleration a. a) b) 30 s 40 50 60 70 d) e) 4. A force F of magnitude...
A light stretchless string is wrapped around a wheel of mass M2.00 kg, radiu inertia-7AOMR The cylinder is released from rest from the lower edge of a table to wh attached, as shown bekow. The cylinder unwinds itself as it descends vertically, a) Find first aagebrais Sprssifor the magnituse of the final linear velocity preod to plug the eylinder after having descended a distance H-4.00 m numbers in to find a as shown below f the center of the from...
Make sure to consider all parts of the
problem with detail and accuracy. Please show your work and
explain. Thank you!
A cylindrical wheel of uniform density with mass M=11kg and radius R= 2m rolls without slipping on an incline that makes an angle of 0 = 30° with the horizontal, as shown in the diagram; there is friction between the wheel and the ramp. A block of equal mass Mis sliding on a separate, frictionless incline, also forming an...
1. IP A turntable with a moment of inertia of 5.2×10−3 kg⋅m2 rotates freely with an angular speed of 3313rpm . Riding on the rim of the turntable, 19 cm from the center, is a cute, 32 g mouse.A) If the mouse walks to the center of the turntable, will the turntable rotate faster, slower, or at the same rate? (Answer is Slower)B) Explain.C) Calculate the angular speed of the turntable when the mouse reaches the center.2. One elevator arrangement...
All questions added because it is needed for Question 6 to 11 to
be answered (I believe).
Answer Question 6 to 11. Please. Thank you
Practical 3: Rotation due to an External Moment - Pre-Lab Preparation Rotation due to an External Moment: Pre-lab Preparation In this practical exercise you will investigate the angular acceleration of a disc about its centre of mass due to an applied moment, and determine the moment of inertia of the disc. Write down the equation...
I need the answer for QUESTION 4 not 3.
4. Consider your answer to the previous problem (part a). Assume m1 = 4.00 kg, m2 = 2.00 kg and the pulley has a radius of R = 6.00 cm and a mass M = 3.00 kg. The magnitude of the frictional torque exerted on the pulley is 0.500 N.m. (a) Starting from rest, how long does it take for the 4.00 kg block to reach the floor, which is 1.0...
Work out the highlighted questions (3-6) clearly and with
units, please. Thanks!
4/5 a the minimum kinetic energy at the apping point? (C) Use conservation of energy to determine the minimum angular velocity of the block just after the collision, (d) then use conservation of angular momentum during the collision to find the initial speed of the bullet vo. (Hint: Ignore the mass of the bullet after the collision. The moment of inertia of the cube about its bottom-right edge...
how
do i do number 8 part a and d? thanks
6. (10 pts) A patient with a broken leg was placed in traction using the system shown below at left. Once the cast is off of the foot, the system can be modeled as shown at right where m is the mass of the cast. In a most unfortunate incident, the cast slips off of the patient's foot and is flung by the traction system. In this problem, model...