Can you please solve the problem in detail please because there are some concepts that I...
4. The diagram shows two masses, ml and m2, that are connected by light cables as shown in the diagram above. They are connected about the perimeters of two cylinders of radii r and r, respectively, as shown in5m the diagram above with r-0.5 meter, r2- 1.5 meters, mi- 20 kilograms, and m-25 kilograms. Axle a. In the space below, draw a force diagram showing all of the forces acting on the masses. mass 1 mass 2 -20kg b. i....
Can 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...
Can you please solve the problem with showing the details 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...
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...
Why can you not solve the problem using constant angular acceleration equations? Please explain in detail w a diagram. EXAMPLE 9.7 AN UNWINDING CABLE I We wrap a light, nonstretching cable around a solid cylinder, of mass 50 kg and diameter 0.120 m, that rotates in frictionless bear- ings about a stationary horizontal axis (Fig. 9.16). We pull the free end of the cable with a constant 9.0-N force for a distance of 2.0 m; it turns the cylinder as...