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How long would it take to circle the earth At the speed of sound?
Wiki User
∙ 14y ago
At or very near the surface it would take almost 34 hours.
Wiki User
∙ 14y ago
Anonymous
8 hours
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How long does it take to get to Saturn from earth at the speed of sound?
This question is complicated by two factors. For one, Saturn is not at a fixed distance from Earth, so the answer would be a range rather than a specific amount of time. But more importantly, there's no fixed speed of sound the way there is for light. The speed of sound is determined by the density of the substrate which the wave is traveling through, say water or air. Even on Earth, the speed of sound through air will vary by temperature and altitude. Since there's nothing in space for the waves to propagate through, sound simply doesn't travel between Earth and Saturn; it has no speed. For the sake of providing an answer, though, let's pretend that space is actually air of the density of that at sea level on Earth. And that Saturn and Earth are at their closest, and stay still. If this were the case, it would take something like: 111 years 273 days 14 hours
Why earth orbits the Sun not in a circle orbit?
To orbit in a precise circle, it would require a very specific speed. Any variation, and the orbit turns into an ellipse. If ever Earth's orbit WAS a circle, the tug from other planets in the Solar System, as well as any other object that happened to pass nearby, would change it to an ellipse.
What would happen to the speed of sound at a very high altitude?
the speed of the sound at high altitude would be very slow.
Why orbit of earth is egg shape?
Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.
What factor will increase the speed of a sound wave in the air?
Speed of sound would increase as the temperature of the air increases Speed of sound increases as humidity of air increases Speed of sound is affected by the density of the air. As density increases velocity of sound decreases
How long would it take a cheetah at top speed to circle the Earth at the equator?
Top Cheetah speed = 75 mph. Circumference of the earth at the Equator = 24,901.55 miles. Time to circle the earth = 332 hours (13 days and 20 hours).
If Mar's were somehow positioned into the same orbit as Earth's. How would it's time to circle the Sun compare with Earth's?
The speed and the orbital distance are directly related. If Mars were in Earth's orbit, it would either move with the same speed that the Earth does, or it would fall into the Sun.
How long would it take a tornado to go around the world at top speed?
The fastest forward speed ever recorded for a tornado was 73 mph, though the tornado that set the record did not travel that fast at all times. At that speed it would take about 14 days to circle the earth. The average tornado travels at about 35 mph, at which speed it would take between 29 and 30 days to circle the earth.
How far would an astronaut travel in 24 hours if he orbited earth every 2 hours?
This depends on how high above the earth his orbit is. It is not the speed of his orbit which determines his distance travelled - the orbit is a circle and the perimeter of the circle (distance travelled) depends on the radius (height above the earth) of that circle.
How long does it take to get to Saturn from earth at the speed of sound?
This question is complicated by two factors. For one, Saturn is not at a fixed distance from Earth, so the answer would be a range rather than a specific amount of time. But more importantly, there's no fixed speed of sound the way there is for light. The speed of sound is determined by the density of the substrate which the wave is traveling through, say water or air. Even on Earth, the speed of sound through air will vary by temperature and altitude. Since there's nothing in space for the waves to propagate through, sound simply doesn't travel between Earth and Saturn; it has no speed. For the sake of providing an answer, though, let's pretend that space is actually air of the density of that at sea level on Earth. And that Saturn and Earth are at their closest, and stay still. If this were the case, it would take something like: 111 years 273 days 14 hours
How long would it take for sound to travel to the sun from earth?
Sound can not travel in the vacuum of space, but if it could, and assuming the same speed as in normal air, then it would take about 19 years for sound to travel 93 million miles at 768 miles per hour.
Why earth orbits the Sun not in a circle orbit?
To orbit in a precise circle, it would require a very specific speed. Any variation, and the orbit turns into an ellipse. If ever Earth's orbit WAS a circle, the tug from other planets in the Solar System, as well as any other object that happened to pass nearby, would change it to an ellipse.
What would happen to the speed of sound at a very high altitude?
the speed of the sound at high altitude would be very slow.
How long would it take to get to mars traveling at the speed of sound?
The speed of sound is only 768mph.
Does speed of sound through air increase when it hits water?
No why would the speed of sound will stay the same
Why orbit of earth is egg shape?
Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.Well, a detailed analysis is probably quite complicated. But to give you a general idea, at a certain speed, the orbit would be circular - the attraction from the Sun is just enough to change the Earth's velocity (i.e., its direction) so that it becomes a circle - maintaining the speed. If the Earth moves slightly slower, then Earth doesn't have enough momentum to keep in a circle, so it would get closer and closer to the Sun, during half an orbit. However, that would also make Earth faster - in fact, fast enough to get away from the Sun again. The final result is a closed orbit, in the shape of an elipse.
Seeming as the speed of sound in air speeds up if the temperature rises therefore how hot would you have to heat the air up until the speed of sound through that air is equal to the speed of light?
It never would. Sound is vibration through some physical medium; the speed of sound is related to the speed of the vibrations. No physical medium can move at the speed of light, so the speed of sound could never get there.
