A pebble and a shoe fall at different speeds and accelerations because the shoe is generally heavier than a pebble. The pebble has less mass than the shoe, so it will fall slower, because there is less of a gravitational force on it. The shoe, however, being bigger and having more mass than the pebble, will fall faster and land harder because gravity has a stronger pull on it.
Pebbles and rock can fall at the same time depending on the height from where they are dropped from. But if dropped from different heights a pebble will fall first but the pebble is lighter than a rock making it faster and causing it to hit the ground first.
We sum the two different speeds and devided by two
Air resistance
varying speeds different colors of light travel
yes, they fall at different speeds because of friction due to air molecules. In a vacuum they would fall at the same speed.
They travel at different speeds.
A pebble and a shoe fall at different speeds and accelerations because the shoe is generally heavier than a pebble. The pebble has less mass than the shoe, so it will fall slower, because there is less of a gravitational force on it. The shoe, however, being bigger and having more mass than the pebble, will fall faster and land harder because gravity has a stronger pull on it.
there is no exact answer, different black holes have different speeds, but all black holes can crush 1 tonne of metal into a size of a pebble
1). Write down the information you're given, such as position, time, speed, etc. 2). Write down the things you know that describe the general relationships among positions, speeds, times, and accelerations. 3). Use the quantities you're given, together with the general rules you know, to find the acceleration.
This condition is called wind shear. It is indeed a crucial factor in producing tornadoes.
The variable intake controls the amount of air pushed through the engine in order to keep it from stalling. The laws of physics that describe Air flow at speeds below Mach 1 (speed of sound) are different for air flow at supersonic speeds. So the size and shape of the engine inlet at low speeds are different that at high speeds.
Sunspots rotate at different speeds.
We sum the two different speeds and devided by two
if groups of scientists didn't work together they would go at different speeds and probably get different results need to describe it completely so that when they use that same factor in an experiment they have the data.
no
No! Lol
The properties of air flow at supersonic speeds is different than for subsonic speeds. So the design of the shape of the airplane and the inlets for the engines have to be different in order for it to fly at supersonic speeds.
no