5. The uniform crate of an unusual shape as shown below has a total mass of...
The uniform crate has a mass of 50 kg and rests on the cart having an inclined surface. Determine the smallest acceleration that will cause the crate either tip or slip relative to the cart. What is the magnitude of this acceleration? The coefficient of static friction between the crate and the cart is mu_s = 0.5.
The crate has a mass of 80 kg and is being towed by a chain which is always directed at 20° from the horizontal as shown. If the magnitude of P is increased until the crate begins to slide, determine the crate's initial acceleration if the coefficient of static friction is p0.5 and the coefficient of kinetic friction is px 0.3. Select one ON a. 353 m/s2 ON b. None CO 36 m/s2 3 d. 1.66 m/s2 Me33.3 m/s2
A. A crate of mass 66.8 kg rests on a level surface, with a coefficient of kinetic friction 1.49. You push on the crate with an applied force of 1,178. What is the magnitude of the crate's acceleration as it slides? Part A answer: 3.0327 m/s^2 B. Take the same crate of mass 66.8 kg and the same coefficient of kinetic friction 1.49, but now place the crate on an inclined surface, slanted at some angle above the horizontal. Now...
Q5. As shown in Fig. 5, a uniform sphere of mass m = 8 kg and radius r rolls without slip toward a large crate with mass M = 80 kg that rests on top of a rubber mat nailed into the ground. The coefficient of friction between the crate and the mat, 1 = 0.75. A spring with stiffness k is attached to the crate at a height h = 0.85m above the mat, and the crate's mass centre...
2. The crate has a mass of 100 kg and rests on the surface for which the coefficient of kinetic friction is 0.25 and the coefficient of static friction is 0.35. If the motor supplies an increasing cable force until the crate moves, and maintains this force magnitude afterwards. Determine (a) the initial acceleration of the crate, (d) the power output developed by the motor when t 2 seconds. The motor has an efficiency of 0.85.
Question 8 III Not yet answered For an object moving in uniform circular motion, the direction of the instantaneous acceleration vector is. Marked out of 2.00 Prag question Select one: O a directed radialy outward Ob tangent to the path of motion O c directed radially inward O d. equal to zero Question 9 Not yet answered Marted out of 3.00 Pag Question The crate has a mass of 80 kg and is being towed by a chain which is...
A uniform rod having a mass of 0.6 kg/m is bent into the shape shown and held at rest in the horizontal position by means of a pin at O. If4.1 m, determine the angular acceleration of the rod at release (in rad/s2). (2 decimal places)
A uniform rod having a mass of 0.6 kg/m is bent into the shape shown and held at rest in the horizontal position by means of a pin at O. If4.1 m, determine the...
3. (a) Use the table method to calculate the coordinates of the
centre of mass of the shape shown in Figure Q3a. Use the bottom
left corner as the origin. Give your answers to three significant
figures. (10 marks)
.(b) Use the calculus method to calculate the position of the
centre of area, relative to the origin, of the shape enclosed by
the lines x = 0, y = 0 and y = cos x between x = 0 and...
The box has a mass m and slides down the smooth chute having the shape of a parabola. If it has an initial velocity of v0 at the origin determine its velocity as a function of x. Also, what is the normal force on the box, and the tangential acceleration as a function of x? y-0.5x2
Please solve all parts.
#3. A uniform rod B of mass mg is placed inside tube A of mass mA. Both bodies are slender rods, homogeneous, and of length L. Initially B is held inside A by a lightweight cap (not shown) that covers the end of tube A while the assembly is spinning freely with the angular velocity wi about the z-axis. The cap then falls off, allowing the rod to slide out of the tube. If Tube B...