Falling objects speed up due to the acceleration of gravity. As an object falls, the force of gravity causes it to accelerate towards the Earth at a rate of 9.8 m/s^2. This acceleration increases the object's speed over time.
Falling objects speed up due to the acceleration of gravity acting on them. As an object falls, the force of gravity pulls it downward, causing it to accelerate. This acceleration causes the object to increase in speed until it reaches terminal velocity or hits the ground.
Gravity is the force that causes objects to accelerate as they fall towards the Earth. The acceleration due to gravity is approximately 9.8 m/s^2 near the surface of the Earth, causing objects to gain speed the longer they fall.
Gravity accelerates falling objects, causing them to increase in velocity as they fall towards the ground. The rate of acceleration due to gravity is approximately 9.8 m/s^2 on Earth, meaning that objects will speed up by 9.8 meters per second for every second they fall.
You're fishing for "air resistance" but your description isn't correct. Air resistance doesn't "slow" a falling object. Once the object has built up to some particular speed of fall, air resistance prevents it from falling any faster.
The force that causes someone to speed up as they fall is gravity. Gravity is the force of attraction between two objects with mass, pulling them towards each other.
Falling objects speed up due to the acceleration of gravity acting on them. As an object falls, the force of gravity pulls it downward, causing it to accelerate. This acceleration causes the object to increase in speed until it reaches terminal velocity or hits the ground.
Gravity is the force that causes objects to accelerate as they fall towards the Earth. The acceleration due to gravity is approximately 9.8 m/s^2 near the surface of the Earth, causing objects to gain speed the longer they fall.
Gravity accelerates falling objects, causing them to increase in velocity as they fall towards the ground. The rate of acceleration due to gravity is approximately 9.8 m/s^2 on Earth, meaning that objects will speed up by 9.8 meters per second for every second they fall.
Galileo Galilei did.
You're fishing for "air resistance" but your description isn't correct. Air resistance doesn't "slow" a falling object. Once the object has built up to some particular speed of fall, air resistance prevents it from falling any faster.
The force that causes someone to speed up as they fall is gravity. Gravity is the force of attraction between two objects with mass, pulling them towards each other.
Now, this is in very....basic. It also may not be 100% correct. The higher up you are, the more distance you fall. The more distance you fall, the faster you go. You peak at a certain speed, and will continue falling at that speed once it is reached. The max speed differs in the amount of weight falling. (Proven by an Egg falling, or a Feather falling.)
it dosent, because if you drop 2 objects at the same mass and weight from really high up then they will land at the same time. This is because the weight of the object doesnt matter, only the force of gravity.
Yes. In our solar system the planets orbit the sun. The process of orbiting is a process of falling towards the sun, but their sideways speed is such that they continually miss (and thus end up going round) the Sun.So, yes planets can and do fall but they do not fall intothe sun. Thus from our viewpoint they do not appear to be falling.
the object will floatit shows increasing acceleration
In a vacuum, all objects fall at the same rate of acceleration regardless of their weight. This is due to the principle of gravity. However, in the presence of air resistance, heavier objects may fall faster than lighter objects due to their ability to overcome air resistance more effectively.
You're fishing for "air resistance" but your description isn't correct. Air resistance doesn't "slow" a falling object. Once the object has built up to some particular speed of fall, air resistance prevents it from falling any faster.