We're not sure what the "1225KP" means, since the speed of sound in air at sea level
is about 340 meters/sec.
That's equivalent to about 760 miles per hour.
22,836.2 miles per hour at sea level.
speeds lower than the speed of sound is known as the subsonic speed. speeds greater than the speed of sound is supersonic (mach 1) and speeds that are many times above the speed of sound (above mach 0) are known as hypersonic sounds.
The speed of light in vacuum is about 874 thousand timesthe speed of sound at sea level.
No real limit, up to the speed of light. The Apollo astronauts traveled at ABOUT 32 times the speed of sound on their trip to the moon. That is the fastest yet.
Take the number of feet in 2 miles (2*5,280) and divide it by the speed of sound in seconds ( 1,010 fps).
22,836.2 miles per hour at sea level.
In dry air (68F) the speed of sound is 343 meters per second
750*0.82=615 mph By the way, 1 mach is the speed of sound, which is 750 mph
speeds lower than the speed of sound is known as the subsonic speed. speeds greater than the speed of sound is supersonic (mach 1) and speeds that are many times above the speed of sound (above mach 0) are known as hypersonic sounds.
The speed of sound of the harrier is the same as the speed of sound of any other object in the relevant medium. It is approx 1225 km/hour.
About 750 mph. The speed of sound.
The speed of light in vacuum is about 874 thousand timesthe speed of sound at sea level.
No . Mach Number is a non-dimensional measurement of SPEED. G-Forces is a measurement of Acceleration.Mach Number is Speed of the aircraft divided by speed of Sound. Therefore it is non-dimensional. Speed is measured in Miles-per-Hour or similar. So when you divide Aiplane Speed(MPH) by Speed of Sound(MPH), then the dimensions divide out.G-Forces is a measure of the Rate of Speed or the amount the airplane speed increases per second. It is measured in Miles-per-Hour-per-Hour.
That depends upon the speed of sound through the medium in which the speed is being measured. mach = speed ÷ speed_of_sound_there ⇒ speed = mach x speed_of_sound_there In dry air at 20oC the speed of sound is [approx] 1236 km/h ⇒ speed_of_mach_0.85 = 0.85 x 1236 km/h ≈ 1051 km/h At 11,000m (where the air temperature is about -50oC) the speed of sound is approx 86% of that in air at 20oC, that is about 1063 km/h ⇒ speed_of_mach_0.85 ≈ 0.85 x 1063 km/h ≈ 904 km/h
It depends on your speed.
That depends on the speed.
No real limit, up to the speed of light. The Apollo astronauts traveled at ABOUT 32 times the speed of sound on their trip to the moon. That is the fastest yet.