The equation of a wave is given by where is the angular velocity, x is length and is the linear velocity. The dimension of k is
(1) LT
(2) T
(3)
(4) T2
The period of a body under SHM i.e. presented by ; where P is pressure, D is density and S is surface tension. The value of a, b and c are
(1)
(2)
(3)
(4)
The velocity of a freely falling body changes as where g is acceleration due to gravity and h is the height. The values of p and q are
(1)
(2)
(3)
(4) 1, 1
A small steel ball of radius \(r\) is allowed to fall under gravity through a column of a viscous liquid of coefficient of viscosity \(\eta\). After some time the velocity of the ball attains a constant value known as terminal velocity \(v_T\). The terminal velocity depends on \((\text{i})\) the mass of the ball \(m\) \((\text{ii})\) \(\eta\) \((\text{iii})\) \(r\) and \((\text{iv})\) acceleration due to gravity \(g\). Which of the following relations is dimensionally correct:
1. | \(v_T \propto \frac{mg}{\eta r}\) | 2. | \(v_T \propto \frac{\eta r}{mg}\) |
3. | \(v_T \propto \eta rmg\) | 4. | \(v_T \propto \frac{mgr}{\eta }\) |
The quantity is the permittivity of free space, L is length, V is the potential difference and t is time. The dimensions of X are the same as that of
(1) Resistance
(2) Charge
(3) Voltage
(4) Current
The dimensions of physical quantity X in the equation Force is given by
(1)
(2)
(3)
(4)
Two quantities A and B have different dimensions. Which mathematical operation given below is physically meaningful
(1) A/B
(2) A + B
(3) A – B
(4) None
A force F is given by F = at + bt2, where t is time. What are the dimensions of a and b
(1) and
(2) and
(3) and
(4) and
The decimal equivalent of 1/20 upto three significant figures is
(1) 0.0500
(2) 0.05000
(3) 0.0050
(4) 5.0 × 10-2
Accuracy of measurement is determined by
(1) Absolute error
(2) Percentage error
(3) Both
(4) None of these