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4. In the figure below (vertical plane), the sea-saw has a mass of 40 kg. Find...
4. In the figure below (vertical plane), the rigid bar has a mass of 80 kg and is hinged on the vertical wall. Calculate the tension of the holding cable and the vertical and horizontal components of the forces acting on the hinge. 2 m 1 m ---------- 1 m ----------> - 40 kg
3. The homogeneous bar has a mass of 40 Kg. Find the distance x of the center of mass from the left edge of the bar. 80 Kg 10 Kg 10 Kg 2 m 1 m
A plane designed for vertical takeoff has a mass of 6.8 ✕ 103 kg. Find the net work done by all forces on the plane as it accelerates upward at 10.6 m/s2 through a distance of 27.0 m after starting from rest.
2) The Oasis of the Seas has a mass of 10° kg and is floating tionless in the ocean. You are standing on its rear deck. You take a 0.15 kq baseball out of your pocket and throw it from the rear deck. away from the ship with a velocity of 30 m/s (about 60 mph) at an angle of20° above the horizontal. 10 pts) How fast does the Oasis move (horizontally) and in what direction? Do not consider any...
A rigid bar in the shape of a T has a mass of 10 kg. The T-shaped body of mass m is composed of two identical slender bars welded together. End A is constrained to move in the slotted frictionless groove guided by the light frictionless roller as shown in Figure 3. The lower end of the T is released from rest in the vertical plane in the position shown, and the dimension /= 1 m. (i) Determine the location...
Prob. 4 Consider a slender uniform homogeneous bar of total length 1.5 m and mass 4.5 kg that is bent and welded to form the equilateral triangular object supported at a hinge in a vertical plane as shown. If the angular velocity is constant at 5 rad/s, determine the components of the reactions at the hinge Prob. 4 Consider a slender uniform homogeneous bar of total length 1.5 m and mass 4.5 kg that is bent and welded to form...
A block of mass m= 81 kg slides down a vertical plane, where the normal force between the vertical plane and the block is non-zero. If the magnitude of acceleration of the block is a =2.5 m/s², find the force of friction between the block and the plane in units of N (Newton). Take g=9.8 m/s2
7 A ball has a mass of 0.5 kg. Dropped from a cliff top, the all strikes the sea below at a velocity of 10 m/s. /s. a) What is the kinetic energy of the ball as it is about to b) What was its potential energy before it was c) From what height was the ball dropped? strike the sea? dropped? Repeat stages a, b, and c above to find the height t is a d) A stone of...
A 10 kg bar shown is currently moving with a center of mass velocity of 1 m/s to the right. What is the angular velocity of the bar at this instant in rad/s? QUESTION 1 A 10 kg bar shown is currently moving with a center of mass velocity of 1 m/s to the right. What is the angular velocity of the bar at this instant in rad's? (gravity is acting in the vertical plane) 0.75 m V = 1...
For the plane bar trusses shown in Figure 2. All bar elements have E= 210GPa and A-4.0 x 10-4 m2. Note: 1GPa=UPKN/m? 3 m 45° IO KN 3 m 20 kN FIG. 3: Plane trusses Determine: element 1 stiffness matrix element 2 stiffness matrix, element 3 stiffness matrix global stiffness matrix [K], global balance equation, boundary conditions, the horizontal displacement of node1 the vertical displacement of node 1 the horizontal reaction force at node 3, the vertical reaction force at...