About 675 MPh, 1,087 k/ph or 587 knots.
About 675 MPh, 1,087 k/ph or 587 knots.
The speed of sound is the same at any elevation, about 740 miles per hour. Airplanes fly at high elevations because there is less air resistance, making it more efficient to fly at high speeds.
the speed of sound is 1100 feet per second
faster
Take the number of feet in 2 miles (2*5,280) and divide it by the speed of sound in seconds ( 1,010 fps).
Speed of sound in air at 38 degrees Celsius is 353.7 meters per second or 1160.6 feet per second.
The speed of sound in a solid is faster than the speed of sound in air.
100000 times faster than speed of sound, which is 340.29 m / s. that multiplied by is 100000 = 34 029 000 m / s
the speed of sound is 1100 feet per second
968.140672 feet/second
1,100 feet per second
There are 5280 feet in one mile. Therefore, 100000 feet is equal to 100000/5280 = 18.93 recurring (that is, 18.939393...) miles.
The speed of sound at 350F is 1395 feet/second (Oven).The speed of sound at 0F is 1051 feet/second (Freezer).Sound travels faster in a hot oven than a cold freezer.
100000 feet is approximately 28333.3 yards
100000 square feet converts to 0.00359 square miles.
faster
It depends on the aircraft's altitude. The speed of sound is decreasing as altitude increases, thus an airplane flying at the speed of sound at 1000 feet will be traveling as fast as 1200 kilometers per hour, while one flying at 30000 feet will be moving way slower, in the 800 kph range.
The round trip distance is 200 feet. The speed in this case is 200 / .185, or 1081 feet per second.
~1100 feet per second ...