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NCERT Class 9 Chapter 10 GRAVITATION Notes

NCERT Class 9 Chapter 10 GRAVITATION Notes





Introduction to Gravitation

This chapter discusses gravitation and the Universal Law of Gravitation. The motion of objects under the influence of gravitational force on Earth is also examined closely. Students will also understand how weight varies from place to place and the conditions required for objects to float on water.

What Is Gravitation?

Gravitation or just gravity is the force of attraction between any two bodies. All the objects in the universe attract each other with a certain amount of force, but in most cases, the force is too weak to be observed due to the very large distance of separation. Besides, gravity’s range is infinite but the effect becomes weaker as objects move away.

Some examples of gravity are:

The force that causes the ball to come down is known as gravity
Gravity keeps the planets in orbit around the sun.
Gravity is the force that causes a rock to roll downhill.

Type of Forces

There are four fundamental forces in the universe and they are:
  • Gravitational force
  • Electromagnetic force
  • Strong nuclear force
  • Weak nuclear force
  • Gravitational Force
Gravitational force is the weakest force out of the four forces. When gravitational force is considered for massive objects, such as the sun, or giant planets, the gravitational force is considered to be strong as the masses of these objects are also large. On an atomic level, this force is considered weak.

Electromagnetic Force

The electromagnetic force is a type of physical interaction that occurs between electrically charged particles. It acts between charged particles and is the combination of magnetic and electrical forces. The electromagnetic force can be attractive or repulsive.

Strong Nuclear Force

The strong force holds together quarks, the fundamental particles that make up the protons and neutrons of the atomic nucleus, and further holds together protons and neutrons to form atomic nuclei.

Weak Nuclear Force

Weak force is the force existing between the elementary particles which are responsible for certain processes to take place at a low probability.

The Universal Law of Gravitation

Newton’s Law of gravitation states that every object in the universe attracts every other object by a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between them.

10.2 Free Fall

Free Fall Activity:
  • Take a stone and throw it upwards. It reaches a certain height and then falls back down.
  • Objects falling towards the Earth under the gravitational force alone are said to be in free fall.
Acceleration Due to Gravity:
  • Objects in free fall experience acceleration due to Earth's gravitational force, denoted by "g."
  • "g" represents the acceleration due to gravity, measured in meters per second squared (m/s^2).
  • While falling, there's no change in the direction of motion, but there's a change in velocity magnitude due to Earth's attraction.
Calculation of Gravitational Force:
  • Gravitational force (F) acting on an object of mass (m) is given by the product of mass and acceleration due to gravity: F = mg.
  • The acceleration due to gravity can be calculated using Newton's law of universal gravitation: 
Variation in "g":
  • "g" may vary slightly due to the Earth not being a perfect sphere, with a greater value at the poles than at the equator.
  • For most calculations, "g" can be considered constant near the Earth's surface.
  • Far from Earth:
  • For objects far from the Earth's surface, the acceleration due to Earth's gravitational force is determined by the gravitational force equation.
The Moon’s Falling – Moon’s Revolution around Earth

The moon revolves around the Earth due to centripetal force, which is the force of gravity of the Earth.  If the force of attraction between the Earth and the moon ceases, then the moon will continue to travel in a straight-line path tangential to its orbit around the Earth.

Centripetal Force

When a body undergoes circular motion, it experiences a force that acts towards the centre of the circle. This centre-seeking force is called a centripetal force. Centripetal force is given by the following equation:

Weight and Mass

The mass of an object is the measure of its inertia and is constant throughout the universe. The weight of an object keeps changing as the value of g changes. Weight is nothing but a force of attraction of the Earth on an object and is given by the following equation:

W=mg

 The weight of an object on the Moon is 1/6 times the weight on Earth.

Thrust and Pressure

Force acting on an object perpendicular to the surface is called thrust. The effect of thrust depends on the area of contact. The pressure is thrust per unit area. SI unit is Pascal (Pa). Force acting on a smaller area applies more pressure than the same force acting on a larger area.

Pressure in Fluids
The pressure exerted by a fluid in a container is transmitted undiminished in all directions on the walls of the container.

Archimedes’ Principle – Why Objects Float or Sink

  • The upward force exerted by a fluid on an object is known as upthrust or buoyant force.
  • The magnitude of buoyancy depends on the density of the fluid.  If the density of an object is less than the fluid, it will float. If the density of the object is greater than the fluid, it will sink.
  • According to the Archimedes’ principle, when a body is immersed fully or partially in a fluid, it experiences an upward force that is equal to the weight of the fluid displaced by it.
Relative Density
Relative density = Density of a substance/ Density of water 

The Story of Gravity – Introduction to Gravitation: Kepler’s laws
In astronomy, Kepler’s laws of planetary motion are three scientific laws describing the motion of planets around the sun.

Kepler’s first law – The law of orbits
Kepler’s second law – The law of equal areas
Kepler’s third law – The law of periods
The orbit of a planet is an ellipse with the sun as its foci.  The line joining the planets and the sun sweeps equal areas in equal intervals of time.