Rotary to Linear Motion

Question:

Consider the diagram at the right. At the instant q=50 degrees, the slotted guide is moving upward with an acceleration of 3m/s² and a velocity of 2m/s. Determine the angular velocity and acceleration of link AB at this instant. Note that upward motion is in the negative y direction.

Answer:

One of the things we know about rotary motion is that the tangential velocity, v_t, is the angular velocity, w, times the radius, r. In equation form, v_t=w*r, or w=v_t/r. At any instant v_t may be resolved into horizontal and vertical components according to the angle q in the diagram. The vertical component of v_t is given by v_v=v_t*sin(q). But v_v is the linear velocity of the slotted guide, so plugging that value in for v_v and working back up the line of reasoning should get us the angular velocity.
v_t = 2m/s / sin(50) = 2 / .766 = 2.61m/s
w = 2.61 / r = 2.61 / 0.3 = 8.7rad/s.

The acceleration of the slotted guide will be equal to the vertical component of the acceleration of the point A on the AB link. Point A may undergo acceleration in both a radial and tangential direction. The magnitude of the radial acceleration is given by the expression a_r = v_t²/r. The vertical component of this acceleration is v_t²/r*cos(q) or a_rv = 2.61²/0.3*0.643 = 14.6m/s². To this we must add the vertical component of any tangential acceleration to get the acceleration of the slotted guide.

The tangential acceleration of the point A of link AB is related to the angular acceleration, a, through the relationship a_t = a*r. The vertical component of the tangential acceleration is a_t times the sine of the angle q or a_tv = a*r*sin(q).

Adding the vertical components of the radial and tangential acceleration and equating the sum to the vertical acceleration of the slotted guide gives us an equation to solve for a when q is 50 degrees.
3=14.6+a*0.3*0.766
a=(3-14.6)/(.3*.766) = -50.5rad/s²

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