H, = 0.40 Hx = 0.30 D 150 mm 150 mm B E 300 mm 300 mm \F 150 mm 150 mm 250 mm
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Solve the problem show in the image. Explain each step please
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- The homogeneous bars have a mass as follows: bar AC has a mass of 7 kg, bar ABhas a mass of 10 kg, and rod BD has a mass of 2 kg. In the drawn position, therod AC has an angular velocity of 4 rad/s and an angular acceleration of 2 rad/s2, both clockwise.Determine the magnitude of the moment M acting on the member AC. Give all the equations neededto solve this question without calculating itWhen the angle θ = 90 °, the cylinder BE starts with a vertical force (F = 3210 N) Newtons on the platform. Also, the box (box) is 200 kg and the angular velocity (ω) of body AB is 9 (rad / s). First, treat the box and platform as a single body to find the following: The magnitude of the reaction forces at points B and D. Box aG acceleration in the x and y direction. Second, having progressed earlier, only found the following for the platform: Reaction force from the box on the platform. Minimum symbol minimum A request of the consonant (μs) to disallow the box.The mass of the A gear is 10 kg and the turning radius is 200 mm. Of gear Bits mass is 3kg and the turning radius is 80 mm. When the system is stationary to gear B. Moment of 6 N.m is applied. By neglecting friction;Find the tangential force from gear B to gear A.
- Determine the following : (a) Tension in each cable when at the bottom (b) the minimum angular velocity in rpm to sustain themotion (refer to the image below)The mass of the A gear is 10 kg and the turning radius is 200 mm. Of gear Bits mass is 3kg and the turning radius is 80 mm. When the system is stationary to gear B. Moment of 6 N.m is applied. By neglecting friction; a) The time elapsed until the angular velocity of gear B reaches 600 rpm.b) Find the tangential force from gear B to gear A.Show the location of the axis of rotation and r for each force that produces torque in the diagram. Also, check calculations, I am off by 1 degree.
- Static problem, please reply as soon as posible and draw the free-body diagrams, thank U A basketball player hangs from the hoop when performing a "dunk" by exerting 2 forces of 100 pounds on it at the indicated points. The bounded dimensions are as follows: h = 14.5 in, r = 9.5 in, α = 120 °. If the indicated forces are replaced by another force applied at point O, which will generate the same effect as the original system. Determine the values of the new force and the torque M that is generated.A torque T = 0.30 N-m is applied to a bevel gear B. Bevel gear D meshes with gear B and drives pump A. Gear B has a radius of gyration of 150 mm and a weight of 50 N, whereas gear D and the im- peller of pump A have a combined radius of gy- ration of 50 mm and a weight of 100 N. Find how many revolutions of gear B are needed to get the pump up to 200 rpm from rest. What is the power output of the pump at this speed if it is 90% efficient.Determine the equivalent of the system using the angular motion of the lower bar
- Determine the equivalent of the system using the angular motion of the upper barFIGURE BELOW shows the car having a mass of 1.40 Mg and a center of mass at Gc pulls a loaded trailer having a mass of 0.8 Mg and a mass center at Gt. a) Draw separate free body diagram showing all forces acting on the car and trailer b) Calculate the acceleration of the car and trailer c) Develop equation of motion to determine the normal reactions on both the car's front and rear wheels and the trailer's wheels if the driver applies the car's rear brakes C and causes the car to skid. Assume μc = 0.4 and assume the hitch at A is a pin or ball-and-socket joint. The wheels at B and D are free to roll. Neglect their mass and the mass of the driver.Determine the equivalent of the system using the angular motion of the bar