Sound travels through matter by the transfer of energy from one molecule (or atom) to the next. Picture striking a row of pool balls straight on end with another pool ball. The balls won't move (and, in a perfect collision, the striking ball will stop as well) except for the ball at the far end of the row, which will move away from the row. This is the principle behind those annoying desktop clacker toys with the swinging metal balls, and it is a simple way to envision how sound travels. Now, in the three states of matter, the "balls" are different distances apart, from very close (solid) to somewhat distant (liquid) to quite far (gaseous). It takes longer for one "ball" to get to another and transfer its energy the farther apart they are. Hence, different speeds.
Sound travels through a medium. Sound travels in waves. The denser the matter the more vibrations can occur and then the vibrations can affect the neighbouring particles.
Sound travels fastest in the densest material.
Gas - slowest (approximately 1km / sec)
Liquid
Solid - fastest
Sound is transmitted by molecules (or atoms) bumping into other molecules. Since there are differences in the distance between those molecules in different substances, as well as the molecule's speeds and masses, you can expect that the speed will also vary.
Different weights and traveling in opposite directions.
Nope... everything is travelling at the same speed,
We sum the two different speeds and devided by two
Air resistance
varying speeds different colors of light travel
sound is mainly caused by vibrating particles and matter consists of matter and the 3 states of matter are solids liqiuids and gasses and due to the way particles are spaced in the different states of matter we will have sounds travelling at different speeds as it crosses the different states of matter.
yes this can be done!
Different weights and traveling in opposite directions.
Different weights and traveling in opposite directions.
That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.
Nope... everything is travelling at the same speed,
If it takes an object a certain amount of time to travel a certain distance, but it is travelling at different speeds at different times, you can treat it as though it was travelling at the same speed all the time, and then just divide distance by time to get speed (for example, in miles per hour).
They are all orbiting the Sun, "at" the same time.But they don't complete their individual orbits "in" the same time.This is because they are ...* different sizes; * different distances from the Sun; * travelling at different speeds.
If both balls are travelling at 30m/s, then they have identical speeds, and neither is travelling faster.
That would depend on what way you were travelling and how fast you were travelling at. You could be crawling, hopping, walking, swimming, driving, flying, sailing, skiing, cycling etc. You could be doing any of those at different speeds. The terrain you were travelling over could be another factor, as could other things, like weather.
Miles is distance and day is time so one cannot be converted into another. If you are asking how many days it would take to travel 1338 miles, that would depend on what way you were travelling. So if you were flying you would do it a lot faster than if you were walking. Different people walk at different speeds or drive at different speeds or fly at different speeds etc. so it is impossible to answer.
Sunspots rotate at different speeds.