A particle goes along a quadrant of a ci...

A particle goes along a quadrant of a circle of radius 10m from A to B as shown in fig. Find the magnitude of displacement and distance along the path AB, and angle between displacement vector and x-axis ?

Text Solution

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(a) Velocity `vec(v)` is defined as the first derivative vector with respect to time.
`vec(v)=(dvec(r))/(dt)=t hat(i)-2sqrt(t)hat(j)+2hat(k) m//s`
Acceleration `vec(a)` is defined as the first derivative of velocity vector with respect to time.
`vec(a)=(dvec(v))/(dt)=hat(i)-1/sqrt(t)hat(j) m//s^(2)`
(b) Displacement `Deltavec(r)` is defined as the change in place of position vector.
`Deltavec(r)=8hat(i)-32/3hat(j)+8hat(k) m`
Magnitude of displacement
`Deltar=sqrt(8^(2)+(32/3)^(2)+8^(2))=1.55 m`
Distance `Deltas` is defined as the path length and can be calculated by integrating speed over the concerned time interval.
`Deltas=underset(0)overset(4)(int)vdt=underset(0)overset(4)(int) sqrt(t^(2)+4t+4)dt=underset(0)overset(4)(int)(t+2)dt=16 m`

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