please show work. thank you 6. The slender, homogeneous rod AB has a mass of 6...
6. The slender, homogeneous rod AB has a mass of 6 kg and rests on the cylinder as shown. The cylinder has a mass of 12 kg and a diameter of 15 mm. A horizontal force P is applied to the cylinder as shown. The coefficient of static friction (us) is 0.3 between the rod and the cylinder and between the cylinder and the ground. Determine the largest magnitude of P that can be applied to the cylinder while maintaining...
The 40kg uniform slender rod AB rests in the position shown when
the constant couple moment of M is applied. Determine the magnitude
of the moment M, so that 2 seconds after the start of the motion,
the velocity of the center, G, will be 4 m/s. Neglect the mass of
the rollers. The bar moves in the horizontal plane.
Problem 6 (25 pts) The 40-kg uniform slender rod AB rests in the position shown when the constant couple moment...
Chapter 6, Problem 6/011 GO Tutorial The 28-kg homogeneous cylinder of 350-mm diameter rests against the vertical and inclined surfaces as shown. If the coefficient of static friction between the cylinder and the surfaces is 0.28, calculate the applied clockwise couple M which would cause the cylinder to slip Answer: M- N-m the tolerance is +/-1 in the 3rd significant digit
Question 4 A homogeneous slender rod AB of mass m and length L is held in the position shown in Figure Q4. The end A of the rod is free to move along the smooth horizontal surface. The end B of the rod is connected to rod BC of negligible mass. The rod AB is released from rest in the position shown when 0 = 60°. If the acceleration of end B is ā, = -a,j, derive the expressions in...
1. A slender rod of mass 0.5 kg and length 0.8 m is released from rest in the position shown. The coefficients of kinetic and static friction between the surface and the rod are Ilk = 0.11, and is = 0.2. Determine whether the rod will slip on the horizontal surface. 300
Please show ALL work and answer ALL parts
In the engine system shown -250 mm and b 100 mm. The connecting rod BD is assumed to be a 1.2-kg uniform slender rod and is attached to the 1.8-kg piston P. The AB rod is rotating counterclockwise at a constant angular velocity of 15 rads/s. Determine all the reactionary forces as a function of θ and plot these forces as a function of θ. At what angle(s) is the reaction force...
The two homogeneous bars AB and BC are connected with
a pin at B and placed between rough vertical walls. If the
coefficient of static friction between each bar and the wall is
0.4, determine the largest and for which the assembly will remain
at rest.
Tut Probleme Week 11 7.4 The two homogencous bars AB and BC are connected with a pin an placed between rough vertical walls. If the coefficient of static friction between each bar and the...
800mm The 20kg homogeneous cylinder of 800-mm diameter rests against the surfaces shown. B The coefficient of static friction is 0.5 for AB and 0.6 for AC. The coefficient of kinetic friction is 0.4 for AB and 0.5 for AC. 300 (i) 5 points: Draw the free body diagram of the cylinder (ii) 15 points: Calculate the magnitude of the clockwise couple M required to initiate the rotation. (iii) 15 points: Suppose that the contact at the surface AB is...
part a and b only first paragraph already done (theta)
Problem 3.35 (6 points) Figure P3.34 A slender rod 1.4 m long and of mass 20 kg is attached to a wheel of mass 3 kgP and radius 0.05 m, as shown in Figure P3.34. A horizontal force f is applied to the wheel axle. Derive the equations of motion in terms of angular displacement θ of the rod and displacement-V,ofthe wheel center Assume the wheel does not slip. Linearize...
Question 2 (35 points) 800mm The 20kg homogeneous cylinder of 800-mm diameter rests against the surfaces shown. The coefficient of static friction is 0.5 for AB and 0.6 for AC. The coefficient of kinetic friction is 0.4 for AB and 0.5 for AC 30- (1) 5 points: Draw the free body diagram of the cylinder (ii) 15 points: Calculate the magnitude of the clockwise couple M required to initiate the rotation. (iii) 15 points: Suppose that the contact at the...