Yes, when the apple falls, it attracts the Earth. This is due to the force of gravity, which exists between all objects with mass and causes them to mutually attract each other.
For those who want further information
Yes, when the apple falls, it attracts the Earth. This is due to the force of gravity, which exists between all objects with mass and causes them to mutually attract each other. The gravitational force between the apple and the Earth is proportional to the masses of both objects and inversely proportional to the square of the distance between their centers.
Gravity, as famously described by Sir Isaac Newton, is one of the fundamental forces that govern the universe. Newton’s law of universal gravitation states, “Every particle of matter in the universe attracts every other particle with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between them.”
Interesting facts about gravity and the attraction between objects:
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Gravity is responsible for the formation and maintenance of celestial bodies like stars, planets, and galaxies.
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The force of gravity weakens with distance. This means that as the apple falls towards the Earth, the force of attraction between them increases.
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The acceleration due to gravity near the Earth’s surface is approximately 9.8 m/s², which means that objects fall towards the Earth at an increasing speed until balanced by other forces like air resistance.
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Gravity affects more than just falling objects. It keeps the Moon in orbit around the Earth and governs the motion of planets around the Sun.
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The gravitational force between any two objects is always attractive, meaning that objects are always pulled towards each other.
Adding a table to the text:
| Objects | Mass (kg) | Distance from Earth’s center (m) |
|---|---|---|
| Apple | 0.2 | 6,371,000 |
| Earth | 5.97 x 10^24 | 0 |
In summary, when the apple falls, it indeed attracts the Earth due to the force of gravity. This mutual attraction is responsible for the apple’s downward motion and is a fundamental force that shapes the universe. As Albert Einstein stated, “Gravity is not responsible for people falling in love.”
A visual response to the word “When the apple falls does the apple also attract the earth?”
The video explains why the moon doesn’t fall to Earth despite being attracted to it. It uses the analogy of throwing a stone to illustrate that on a flat Earth, the stone would eventually hit the ground no matter how hard it is thrown. However, since the Earth is spherical, if the stone is thrown with a particular velocity, it will miss the Earth and begin falling in the opposite direction. This process can continue indefinitely if there is no friction. Similarly, the moon is continuously falling towards the Earth, but its velocity is perfectly balanced, enabling it to orbit around the Earth instead of colliding with it.
Additional responses to your query
The apple also attracts the earth by the same force. We do not see the earth rising towards the apple, because the acceleration of the earth is equal to that of the apple.
Yes, the apple attracts the earth with the same force as the earth attracts the apple with, around 1 newton. But the earth does not move towards the apple because there is not enough force to move an object that massive. The more mass something has, the more force will be required to move it
An apple falls towards the earth because the earth attracts it. The apple also attracts the earth by the same force. We do not see the earth rising towards the apple, because the acceleration of the earth is equal to that of the apple. So, the earth provides the same acceleration to that apple.
yes, if the eath atttracts apple the apple also attracts the earth. but the apple move towards the earth because the mass of apple is very less as comapared to that of the earth.
Example: The Earth attracts the apple that falls 3 metres from a tree to the ground and the apple mass is very small compared to Earth. At the same time, the apple also attracts the Earth with the same force, but the Earth‘s mass is immensely greater than the apple‘s mass.
The earth attracts an apple towards itself, the apple also attracts the earth towards itself with the same force.