Can you please solve the question with details because i’m having problems with the concepts and...
Can you please solve the problem with explaining the concepts
used because I’m having trouble understanding the question and how
to solve it
2012 AP PHYSICS C: MECHANICS FREE-RESPONSE QUESTIONS Sliding Only Sliding and Rotating Rotating with No Sliding No Friction Friction with Coefficient μ 1-0 Mech. 3. A ring of mass M, radius R, and rotational inertia MR is initially sliding on a frictionless surface at constant velocity uo to the right, as shown above. At time 10 it...
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MOHAMED ALDEGN 1996MB. Consider a thin uniform rod of mass M and length I, as shown above a. Show that the rotational inertia of the rod about an axis through its center and perpendicular to its length is MP/12. 8 vil: D.ALDEGNI ニレMLz The rod is now ghued to a thin hoop of mass M and radius R/2 to form a rigid assembly, as shoun above. The centers of the...
6. Consider the system shown: m, J, R The wheel with mass m, radius R, and rotational moment of inertia J rolls without slipping down the incline shown. The spring affixed to its axle has rest length h, and is neither extended nor compressed when r 0. The external force F is directed parallel to the direction of rolling. Find the total kinetic energy and potential energy in the system. Assume the gravitational potential energy to be zero when the...
C11R.1
in time dt. (Since Fr is constant, it follows from this that Dun TuIIS wh the incline if the ball rolls from rest a distance D down the incline, the ball's change in rotational energy, and thus its final rotational energy is uoD, as claimed in equation C11.20.) C11 Rich Context CI1R.1 Suppose you are replacing a tire on your old clunker of a car on a steep hill in San Francisco, and somehow yo spare tire gets away...
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you please solve the problem in detail because there are some
concepts that I don’t understand
MOHAMED ALDEGN Sin 25 0.42 Cos 25 0.91 Tan 250.47 p 10 m's 3s 1994M2. Alarge phere rolls without slipping across a Note: Diagram not drawn to scale. translational speed of 10 meters per second, a mass m of 25 kilograms, and a radms the sphere about its ceater of mass is I-2ms. The sphere approache shown above and rolls up the incline...
6. A disk with a mass M, a radius R, and a rotational inertia of I- MR is attached to a horizontal spring which has a spring constant of as shown in the diagram. When the spring is stretched by a distance x and then released from rest, the disk rolls without slipping while the spring is attached to the frictionless axle within the center of the disk (a) Calculate the maximum translational velocity of the disk in terms of...
Can you please solve part a, b , c. d and e with
explaining the concepts and steps
2018 AP PHYSICS C: MECHANICS FREE-RESPONSE QUESTIONS λ-(2 )- none uniforme densi y 3. A triangular rod, shown above, has length L, mass M, and a nonuniform linear mass density given by the equation λ 2Af ー『x . where is the distance from one end of the rod. (a) Using integral calculus, show that the rotational inertia of the rod about itsleft...
Can you please help me solve this with its part a b c and d?
(0%) Problem 13: A block of mass m = 3.4 kg is on an inclined plane with a coefficient of friction My = 0.31, at an initial height h=0.63 m above the ground. The plane is inclined at an angle 0 = 47°. The block is then compressed against a spring a distance Ax=0.11 m from its equilibrium point (the spring has a spring constant...
Can you please solve the problem in detail please because
there are some concepts that I don’t understand
Axle Q.5m :-1.5m Two masses. mu and me are cocnected by light cables to the perimeters of ore ee to respectively. as shosn in t diagran ae. The cy/linders are rigidly connected to eacm rotate without friction on a common axde. The momet of inertia Also r-0.5 meter, -1.5 meters, and 20 kilograms. by light cables to the perimeters of two eylinders...
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An automobile having a mass of 1,000 kg is driven into a brick wll in a safety test. The bumper behaves like a spring with constant 4.35 x 10 N/m and is compressed 2.45 cm as the car is brought to rest. What was the speed of the car before impact, assuming no energy is lost in the collision with the wall? m/s Need Help?...