Acceleration due to gravity at a height of H from the surface of a plane is the same as that at a depth of H below the surface.If R is the radius of the planet, then H vs. R graph for different planets will be
The Correct Option is C
Solution and Explanation
Relation Between Height and Depth for Equal Acceleration Due to Gravity
The acceleration due to gravity at a height h above the Earth's surface is given by:
\[ g_h = g \left(1 - \frac{2h}{R}\right) \]
The acceleration due to gravity at a depth d below the Earth's surface is given by:
\[ g_d = g \left(1 - \frac{d}{R}\right) \]
To find the relation between height and depth when both give the same gravity, we equate \( g_h = g_d \):
\[ g \left(1 - \frac{2h}{R}\right) = g \left(1 - \frac{d}{R}\right) \]
Canceling \( g \) on both sides:
\[ 1 - \frac{2h}{R} = 1 - \frac{d}{R} \]
Simplifying:
\[ \frac{2h}{R} = \frac{d}{R} \Rightarrow 2h = d \]
Conclusion: When the acceleration due to gravity is the same at a height h and a depth d, then the relation is \( d = 2h \).
The correct answer is option (C):
Top Questions on Newtons Laws of Motion
- In the given situation, the force acting at the center on a \(1\,\text{kg}\) mass is \(F_1\). Now, if the masses \(4m\) and \(3m\) are interchanged, the force becomes \(F_2\). Given that \[ \frac{F_1}{F_2}=\frac{2}{\sqrt{\alpha}}, \] find the value of \(\alpha\).
- JEE Main - 2026
- Physics
- Newtons Laws of Motion
- A block of mass \(5\) kg is moving on an inclined plane which makes an angle of \(30^\circ\) with the horizontal. The coefficient of friction between the block and the inclined plane surface is \(\dfrac{\sqrt{3}}{2}\). The force to be applied on the block so that the block moves {down the plane without acceleration is ________ N. (\( g = 10 \, \text{m s}^{-2} \))}
- JEE Main - 2026
- Physics
- Newtons Laws of Motion
A particle of mass \(m\) falls from rest through a resistive medium having resistive force \(F=-kv\), where \(v\) is the velocity of the particle and \(k\) is a constant. Which of the following graphs represents velocity \(v\) versus time \(t\)?
- JEE Main - 2026
- Physics
- Newtons Laws of Motion
- The de Broglie wavelength of an oxygen molecule at 27°C is x × $10^{-12}$ m. The value of x is (take Planck's constant=6.63 × $10^{-34}$ J/s, Boltzmann constant=1.38 × $10^{-23}$ J/K, mass of oxygen molecule = 5.31 × $10^{-26}$ kg)
- JEE Main - 2026
- Physics
- Newtons Laws of Motion
- Consider light travelling from a medium A to medium B separated by a plane interface. If the light undergoes total internal reflection during its travel from medium A to B and the speed of light in media A and B are \(2.4 \times 10^8\) m/s and \(2.7 \times 10^8\) m/s, respectively, then the value of critical angle is :
- JEE Main - 2026
- Physics
- Newtons Laws of Motion
Questions Asked in WBJEE exam
What are the charges stored in the \( 1\,\mu\text{F} \) and \( 2\,\mu\text{F} \) capacitors in the circuit once current becomes steady?
- WBJEE - 2026
- Capacitors and Capacitance
Which one among the following compounds will most readily be dehydrated under acidic condition?
- WBJEE - 2026
- Organic Reactions
Manufacturers supply a zener diode with zener voltage \( V_z=5.6\,\text{V} \) and maximum power dissipation \( P_{\max}=\frac14\,\text{W} \). This zener diode is used in the circuit shown. Calculate the minimum value of the resistance \( R_s \) so that the zener diode will not burn when the input voltage is \( V_{in}=10\,\text{V} \).
- WBJEE - 2026
- Zener Diodes
Two charges \( +q \) and \( -q \) are placed at points \( A \) and \( B \) respectively which are at a distance \( 2L \) apart. \( C \) is the midpoint of \( AB \). The work done in moving a charge \( +Q \) along the semicircle CSD (\( W_1 \)) and along the line CBD (\( W_2 \)) are
- WBJEE - 2026
- electrostatic potential and capacitance
A piece of granite floats at the interface of mercury and water. If the densities of granite, water and mercury are \( \rho, \rho_1, \rho_2 \) respectively, the ratio of volume of granite in water to that in mercury is
- WBJEE - 2026
- Buoyancy and Floatation
Concepts Used:
Acceleration
In the real world, everything is always in motion. Objects move at a variable or a constant speed. When someone steps on the accelerator or applies brakes on a car, the speed of the car increases or decreases and the direction of the car changes. In physics, these changes in velocity or directional magnitude of a moving object are represented by acceleration.
