The position of a particle is given by \(s\left( t\right) = \frac{2 t^{2} + 1}{t + 1}\). Then, at \(t= 2\), its velocity is: \(\left(v_{inst}= \frac{ds}{dt}\right)\)
1. \(\frac{16}{3}\)
2. \(\frac{15}{9}\)
3. \(\frac{15}{3}\)
4. None of these
The instantaneous velocity at t= of a particle whose positional equation is given by is -
(1) 0
(2) -24
(3) 24
(4)
If acceleration of a particle is given as a(t) = sin(t)+2t.
Then the velocity of the particle will be:
(acceleration )
1. \(-\cos(t)+ \frac{t^2}{2}\)
2. \(-\sin(t)+ t^2\)
3. \(-\cos(t)+ t^2\)
4. None of these
If \(x= 3\tan(t)\) and \(y = \sec (t)\), then the value of \(\frac{d^{2} y}{d x^{2}}~\text{at}~t = \frac{\pi}{4}\) is:
1. \(3\)
2. \(\frac{1}{18\sqrt{2}}\)
3. \(1\)
4. \(\frac{1}{6}\)
A particle's position as a function of time is given by .
The maximum value of the position co-ordinate of the particle is:
1. \(8\)
2. \(12\)
3. \(3\)
4. \(6\)
A gas undergoes a process where pressure P=, at every instant, here V is the volume. Find an expression for the bulk modulus (B) in terms of volume if it is related to P and V as .
(1)
(2)
(3)
(4)
The current in a circuit is defined as . The charge (q) flowing through a circuit, as a function of time (t), is given by . The minimum charge flows through the circuit at:
1. \(t = 4~\text{s}\)
2. \(t = 2~\text{s}\)
3. \(t = 6~\text{s}\)
4. \(t = 3~\text{s}\)
The current in a circuit is defined as . If the charge (q) flowing through a circuit is given by current flowing through the circuit is equal to zero at:
1. t=3 sec
2. t=2 sec
3. t=1.5 sec
4. t=15 sec
Work done by a force (\(F\)) in displacing a body by dx is given by W=. If the force is given as a function of displacement (\(x\)) by \(F \left(x\right) = \left( x^{2} - 2 x + 1\right) \text{N}\), then work done by the force from \(x=0\) to \(x=3\) m is:
1. \(3\) J
2. \(6\) J
3. \(9\) J
4. \(21\) J
The impulse due to a force on a body is given by \(I=\int Fdt\). If the force applied on a body is given as a function of time \((t)\) as \(F = \left(3 t^{2} + 2 t + 5\right) \text{N}\), then impulse on the body between \(t = 3~\text{s}\) to \(t =5~\text{s}\) is:
1. \(175\) kg-m/sec
2. \(41\) kg-m/sec
3. \(216\) kg-m/sec
4. \(124\) kg-m/sec