*Will an elephant and a penny fall at the same rate? *

Does a heavier object fall faster? Answer 1: Heavy objects fall at the same rate (or speed) as light objects. The acceleration due to gravity is about 10 m/s2 everywhere around the Earth, so all objects experience the same acceleration when they fall.

Which will fall faster if it falls from the same height as an elephant or a mouse assuming there is no air resistance? The elephant has a greater acceleration of gravity than the feather and therefore falls faster. Each object experiences the same amount of air resistance, but the elephant experiences the greatest force of gravity.

Are all objects falling at the same rate? The mass, size and shape of the object are not a factor in describing the motion of the object. Thus, all objects, regardless of their size, shape or weight, fall in free fall with the same acceleration. In the void, a beach ball falls at the same rate as an airliner.

## Will an Elephant and Penny Fall at the Same Rate – Related Questions

**Will a penny and a bowling ball fall at the same rate?**

Spoiler: the answer is that they will all drop at exactly the same rate. Although some items, like feathers, seem to fall slower due to air resistance.

**Will a penny and a feather fall at the same rate?**

You might think this would make the coin fall faster. But due to the greater mass of the part, it is also much harder to accelerate the part than the feather – 50 times harder, in fact! The two effects cancel each other out exactly, so both objects fall with the same acceleration.

**Which falls faster an elephant or a mouse?**

True or false? The elephant and mouse free body diagrams show that the mouse rapidly reaches terminal velocity (terminal velocity occurs when Fg=just) while the elephant continues to accelerate for much longer. The elephant therefore goes faster when it touches the water.

**Can gravity act in a vacuum?**

Yes, gravity exists in a vacuum. A vacuum doesn’t need to be completely devoid of matter, it just needs to have lower pressure than the area around it.

**Who will fall the first elephant or rat?**

The elephant encounters a smaller force of air resistance than the rat and therefore falls faster. The elephant has a greater acceleration of gravity than the rat and therefore falls faster. If the rat weighs more than the elephant, then it will not accelerate as quickly as the elephant.

**When we compare an elephant and a feather The elephant has a greater acceleration because it has more mass?**

The feather weighs more and therefore will not accelerate as quickly as the elephant. 8. The elephant and the feather weigh the same, but the greater mass of the feather results in a lower acceleration.

**Why are there no flying elephants?**

Why are there no birds (or even other flying animals) the size of an elephant? However, the animal eventually grows too large to have effective wings and therefore cannot fly.

**How is it possible that two objects of different size and mass fall at the same speed when dropped from a certain height?**

Compared to a 1 kg object, a 2 kg object is attracted to the Earth with twice the force. However, to compensate for this, it also has twice the inertia. So, according to Newton’s second law (a = F/m), the acceleration should be the same. a = GM/r^2 the mass of the body disappears so all bodies fall at the same rate.

**Why do objects fall at different rates?**

Galileo discovered that objects that are denser or have more mass fall faster than less dense objects, due to this air resistance. Air resistance causes the feather to fall more slowly.

**Will two balls fall at the same rate?**

If there is no air resistance, the rate of descent depends only on the height from which the object falls, regardless of its weight. This means that two objects will hit the ground at the same time if they are dropped simultaneously from the same height.

**Which bowling ball will fall the fastest?**

The laws of gravity dictate that a bowling ball will always fall faster than a feather. But try the same experiment in a giant vacuum and that’s where it gets interesting.

**Does gravity push or pull?**

The important thing to remember is that gravity is neither a push nor a pull; what we interpret as a “force” or the acceleration due to gravity is actually the curvature of space and time – the path itself tilts downward.

**In what condition do a coin and a feather fall together?**

Answer: A feather and a coin dropped from the same height fall at the same speed in free fall. In this condition of free fall, the part and the feather gain the same acceleration of 9.8 m/s 2.

**Under what circumstances would a penny and a feather falling from the same height hit the ground at the same time?**

The coin and the feather will reach the ground at the same height because in a vacuum, the movement of a body does not depend on its mass since there is no gravity. Therefore, any body in free fall in a vacuum will hit the ground at the same time.

**Will a heavier ball hit the ground first?**

In other words, if two objects are the same size but one is heavier, the heavier one has greater density than the lighter object. Therefore, when both objects fall from the same height and at the same time, the heavier object must hit the ground before the lighter one.

**Which will fall faster a hammer or a feather?**

In an environment with air, the hammer will fall faster. The feather will have greater aerodynamic resistance preventing it from falling, proportional to its mass, than the hammer. That said… in a vacuum and with no other source of friction, the two objects should fall at the same speed.

**How fast does an elephant fall?**

For the record, 80 m/s equals about 200 miles per hour. Doing the calculation again with the larger face of the brick pointing down, however, we find that the elephant’s terminal velocity is greater, and the same is true if the elephant falls headfirst, rather whether on the back or on the side.

**Which falls faster a feather or a bowling ball?**

The feather-bowling ball duo doesn’t fall any slower because the feather is lighter than the bowling ball alone – instead, they both fall at exactly the same rate.

**Do you fall faster the higher you are?**

The higher an object begins to fall above the Earth’s surface, the faster it moves by the time it hits the ground. Do you know why? The reason is gravity.

**Why are you weightless in space?**

Astronauts in Earth orbit are weightless for the same reasons passengers on a freefall amusement park ride or a freefall elevator are weightless. They are weightless because there is no external contact force pushing or pulling on their body. In each case, gravity is the only force acting on their body.

**Does space have zero gravity?**

In outer space, however, there is no reason to push astronauts. As they orbit and fall towards Earth at the same rate as their spacecraft, astronauts feel weightless, as if there were no gravity. Gravity exists everywhere, even in space. It can be so small at great distances that it is almost undetectable.