For any arbitrary motion in space, which of the following relations are true : - \(v_{average}\)= \(\bigg(\frac{1}{2}\bigg)\) (\(v\) (\(t_1\) ) + \(v\) (\(t_2\) ))
- \(v_{average}\) = \(\frac{[r(t_2)-r(t_1)]}{(t_2-t_1)}\)
- \(v(t)\) = \(v(0)\) + \(at\)
- \(r(t)\) = \(r(0)\) + \(v(0)t+\bigg(\frac{1}{2}\bigg)at^2\)
- \(a_{average}\) =\(\frac{[v(t_2)-v(t_2)}{(t_2-t_1)}\)
(The ‘average’ stands for average of the quantity over the time interval \(t_1\) to \(t_2\) )
- \(v_{average}\)= \(\bigg(\frac{1}{2}\bigg)\) (\(v\) (\(t_1\) ) + \(v\) (\(t_2\) ))
- \(v_{average}\) = \(\frac{[r(t_2)-r(t_1)]}{(t_2-t_1)}\)
- \(v(t)\) = \(v(0)\) + \(at\)
- \(r(t)\) = \(r(0)\) + \(v(0)t+\bigg(\frac{1}{2}\bigg)at^2\)
- \(a_{average}\) =\(\frac{[v(t_2)-v(t_2)}{(t_2-t_1)}\)
(The ‘average’ stands for average of the quantity over the time interval \(t_1\) to \(t_2\) )
Solution and Explanation
a) False
It is given that the motion of the particle is arbitrary. Therefore, the average velocity of the particle cannot be given by this equation.
b) True
The arbitrary motion of the particle can be represented by this equation.
c) False
The motion of the particle is arbitrary. The acceleration of the particle may also be non-uniform. Hence, this equation cannot represent the motion of the particle in space.
d) False
The motion of the particle is arbitrary; acceleration of the particle may also be non-uniform. Hence, this equation cannot represent the motion of particle in space.
e) True
The arbitrary motion of the particle can be represented by this equation.
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Concepts Used:
Motion in a Plane
It is a vector quantity. A vector quantity is a quantity having both magnitude and direction. Speed is a scalar quantity and it is a quantity having a magnitude only. Motion in a plane is also known as motion in two dimensions.
Equations of Plane Motion
The equations of motion in a straight line are:
v=u+at
s=ut+½ at2
v2-u2=2as
Where,
- v = final velocity of the particle
- u = initial velocity of the particle
- s = displacement of the particle
- a = acceleration of the particle
- t = the time interval in which the particle is in consideration