Which of the following is a dimensional constant? - Vidyadip

MCQ

Which of the following is a dimensional constant?

A
Relative density
B
Strain
C
Refractive index
✓
Gravitational constant

✓

Answer

Correct option: D.

Gravitational constant

D

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "SECTION - A [PHYSICS - MCQ]" from Model Paper 3→Model Paper 3 — all question types→NEET STD 11 Science question papers→Gujarat Board STD 11 Science question papers→Gujarat Board question paper generator→

Similar questions

At shallow depth $h$, the pressure in the ocean is simply given by $P = P_0 + \rho gh$, in which $\rho$ is the density of water and $P_0$ is the air pressure. As we go deeper, the high pressure causes the water to compress and become denser. Which of the following sketches illustrates the correct dependence of the pressure on the depth $h$ ?

The resistance $R =\frac{ V }{ I },$ where $V =(50 \pm 2) \;V$ and $I=(20 \pm 0.2)\;A.$ The percentage error in $R$ is $x\%$. The value of $x$ to the nearest integer is .........

Three blocks are initially placed as shown in the figure. Block $A$ has mass $m$ and initial velocity $v$ to the right. Block $B$ with mass $m$ and block $C$ with mass $4m$ are both initially at rest. Neglect friction. All collisions are elastic. The final velocity of block $A$ is

The gravitational force on a body of mass $1.5 \,kg$ situated at a point is $45 \,N$. The gravitational field intensity at that point is ......... $N / kg$

Image formed on the retina is

The value of current through $20\,\Omega $ resistor is .................. $A$

A bi-convex lens is formed with two thin plano-convex lenses as shown in the figure. Refractive index of the first lens is $1.5$ and that of the second lens is $1.2$. Both the curved surfaces are of the same radius of curvature $R = 14\; cm$. For this bi-convex lens, for an object distance of $40\; cm$, the image distance will be

The resultant capacitance of given circuit is

As shown in figures, three identical polaroids $P_1$, $P _2$ and $P _3$ are placed one after another. The pass axis of $P_2$ and $P_3$ are inclined at angle of $60^{\circ}$ and $90^{\circ}$ with respect to axis of $P _1$. The source $S$ has an intensity of $256 \frac{ W }{ m ^2}$. The intensity of light at point $O$ is $...........\frac{ W }{ m ^2}$.

A force of $(2\hat i - 4\hat j + 2\hat k)$ $N$ acts at a point $(3\hat i + 2\hat j - 4\hat k)$ $metre$ from the origin. The magnitude of torque is ......... $ N-m$