Find the angle between the velocity and the total acceleration

AI Thread Summary
The discussion focuses on finding the angle between the velocity and total acceleration of a point moving along a circular arc with a velocity defined by v = a*s^1/2, where 'a' is a constant and 's' is the distance traveled. The relationship between distance and angle is established using basic geometry, leading to the equation V = a*sqrt(r*theta). The problem involves deriving a first-order differential equation to express theta as a function of time, with the initial condition set to zero. Participants emphasize the importance of distinguishing between the angle subtended at the center and the angle between net acceleration and velocity. The conversation encourages further exploration of the types of acceleration involved and their vector nature.
spiffing_abhijit
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A point moves along the arc of a circle of radius R .It's velocity depends upon the distance covered as v=a*s^1/2 where a is a constant .Find the angle between the velocity and the total acceleration vector as a function of distance.
 
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The solution turns out to be a first order differenetial equation

Since V = a*sqrt(s) where s is the distance traveled

we can relate s to the radius and the angle subtended

s = r*theta (just basic geometry here)

so V = a*sqrt(r*theta)

From basic kinematics

V = r*thetadot

Thus we have

r*dtheta/dt = a*sqrt(r*theta)

By using separation of variable it is possible to solve for theta as an explicit function of time. In this case the initial condition is going to be the initial angle which you can assume is zero as it is simply a reference loctation.

If you want to know theta as a function of distance, then this really isn't much of a problem because theta = distance/radius
 
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Abercrombie, the angle to be determined in the OP's post is the angle between net acceleration and velocity of the object, and not the angle subtended at the centre as a function of time.

Abhijit, what are your thoughts on the problem ? Please show your attempt thus far .
Just to get you started, what are the different types of acceleration associated with the particle in question ? So what is the net acceleration (remember acceleration is a vector) ? How is the velocity directed ?
 
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