What Happens When a Stone of 10 Grams is Dropped?

The Physics Behind it

When a stone of 10 grams is dropped, it will fall at a certain rate due to the force of gravity. This rate of fall is known as the acceleration due to gravity, and it is equal to 9.8 meters per second squared. This means that the stone will accelerate at a rate of 9.8 meters per second every second that it falls.

The Impact of the Drop

When the stone of 10 grams is dropped, it will eventually hit the ground. The impact of the drop depends on the distance it has fallen and the speed at which it is traveling when it hits the ground. The higher the speed, the greater the impact. This is because the impact force is equal to the mass of the object multiplied by the acceleration due to gravity.

The Effects of Air Resistance

The effects of air resistance must also be taken into account when considering the fall of a stone of 10 grams. Air resistance is a force that acts against the motion of the object, and it can significantly slow down the rate of fall. Typically, air resistance increases with the square of the object’s speed, meaning that the faster the object is moving, the greater the air resistance.

The Resulting Motion

The motion of the stone of 10 grams is determined by the combination of gravity and air resistance. If the air resistance is low, then the stone will accelerate at the rate of gravity until it reaches its terminal velocity. On the other hand, if the air resistance is high, then the stone will not reach its terminal velocity and will instead slow down until it hits the ground.

Conclusion

When a stone of 10 grams is dropped, it will fall at a rate of 9.8 meters per second squared due to the force of gravity. The impact of the drop depends on the distance it has fallen and the speed at which it is traveling when it hits the ground. The effects of air resistance must also be taken into account, as it can significantly reduce the rate of fall. The motion of the stone is determined by the combination of gravity and air resistance.