What is the minimum force T necessary to lift the wheel?

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To determine the minimum torque T necessary to lift the retracting nose wheel assembly, one must calculate the moments acting on the system, particularly focusing on the combined mass of 50kg and its center of mass at G. The moment between points A and G is calculated to be 245Nm, which must be countered by the applied torque at link BC. The force at point D, which is perpendicular to arm AD, must create a moment that is equal to or greater than the moment created by the weight of the wheel and arm. The lifting moment operates with a moment arm of 0.8 m, and the applied torque T must be directed along BD to effectively lift the assembly. Understanding the relationships between the forces and moments through the linkages is crucial for solving the problem.
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Hi I'm very new so I'm not sure if this is the best place to put this in. I've got a problem that I'm having trouble working out and any help would be great.

'A retracting nose wheel assembly is raised by the application of a torque T applied to link BC through a shaft at B. The wheel and arm AO have a combined mass of 50kg with a centre of mass at G. Find the value of T necessary to lift the wheel when D is directly under B at which position angle is 30degrees.

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The torque acts on a moment arm, and one must determine the necessary force at D (normal) the arm AO.

So the force/moment is applied at D, but that moment must be at least equal to the moment of wheel and arm AO. That information is given - "a combined mass of 50kg with a centre of mass at G."

This post belongs in the Engineering and Technology Homework Forum.
 
k I've worked out the moment between A-G is 245Nm but I can't see how this relates to B-C
 
grayworks said:
k I've worked out the moment between A-G is 245Nm but I can't see how this relates to B-C
One needs to show work. It would appear that one use 50 kg * 9.8 m/s2 * cos (60°), which is correct.

The applied moment must be in the opposite direction of that and of the same or greater magnitude for the wheel to move. The lifting moment operates at D perpendicular to AD, which has a moment arm 0.8 m.

Has one done moments/torques through linkages?

CD applies a force at D, and BC applies a force to CD.

The torque T, acts along BD, by virtue of BC and CD.
 

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