Why do bigger things look like they move slower?

Things appear to move slower when they are far away because they seem smaller, and take longer to cross our line of vision. Likewise, they appear to move faster when they are close by, because they seem bigger.

Why do really fast things look slow?

The apparent speed you are talking about (how many degrees per minute does the object appear to move) goes as the inverse of the distance. So if one object is ten times as far from you as another one, it will appear to move ten times slower than it is really moving.

Why is it harder to move heavy objects?

INERTIA. The greater the weight (or mass) of an object, the more inertia it has. Heavy objects are harder to move than light ones because they have more inertia. Inertia also makes it harder to stop heavy things once they are moving.

Why do denser objects fall faster?

Given two objects of the same size but of different materials, the heavier (denser) object will fall faster because the drag and buoyancy forces will be the same for both, but the gravitational force will be greater for the heavier object.

How does density affect falling speed?

Does a heavy object fall faster?

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

Why do we expect larger things to move slowly?

We expect larger things to move slowly for a couple of different reasons. First, because we usually see large objects at long distances, and a large object moving fast at a long distance appears to be moving slower than a small object up close moving the same (linear) speed.

Why do giant objects appear to move slower than small objects?

Giants appear to move slower because of how the laws of perspective and relativity work. If something is very big or very far away, it will appear to move relatively slow because of our difference in perspective. The best example is airplanes.

Why are giant Giants portrayed in slow motion?

Giants are portrayed in slow motion because speed does not scale with size, because mass does not scale with size. Doubling dimensions results in quadrupling volume (and thus mass, all things being even).

Why does the giant robot move slower than the smaller robot?

And since they would take the same amount of time to reach the ground, it would appear that the giant robot was moving slower. This is also compounded by the fact that smaller moving objects are usually seen up close, while larger objects are often viewed from a distance. This is the right answer.