The distance to Pluto on average 5.7 billion kilometers or 38.5 AU.
the speed of sound is 340.29 m/s
so at the speed of sound it would take 4,652,894 hours to reach Pluto.
4652894/24 = 193,870 days (turning the number of hours into days)
365/193870 = 531 years (turning the number of days into years)
Yes, a sonic boom occurs when an aircraft exceeds the speed of sound. It is the sound associated with the shock waves created by an object traveling through the air at a speed faster than the speed of sound.
The period of a sound wave is the time it takes for one complete cycle. To find the period, we need to know the speed of sound in the medium the wave is traveling through. The formula to calculate the period is: period = wavelength / speed of sound.
Yes, sound waves travel through a medium, such as air or water, by causing particles to vibrate back and forth. The speed at which sound travels depends on the medium it is traveling through, with sound traveling faster through denser materials like solids compared to gases. This movement of particles allows sound to be heard by our ears.
Not necessarily. The distance a car travels is determined by its speed and the time it spends traveling. If a car is traveling at a slower speed but for a longer period of time, it may not cover as much distance as a car traveling at a faster speed but for a shorter period of time. So, the longest time does not always correspond to the greatest distance traveled.
Not necessarily. The speed at which the car is traveling also plays a significant role in determining the distance covered. A car traveling at a slower speed can travel for a longer time and cover less distance than a car traveling at a higher speed for a shorter amount of time.
The speed of sound is only 768mph, so it'll take a pretty darn long time.
cruising speed
Yes, a sonic boom occurs when an aircraft exceeds the speed of sound. It is the sound associated with the shock waves created by an object traveling through the air at a speed faster than the speed of sound.
... What is the speed of the ball? Distance = 17.5 m Time = 2.6 sec Speed (of sound) = 340 m/sec Speed (of ball) = ? Typically Speed = Distance/time (which means 17.5/2.6. But here we also have to calculate the speed of the sound of the ball traveling when the ball hits the pins till it reaches the ears of the bowler) Time (of sound) = Distance/Speed (of sound) = 17.5/340 = 0.0515 sec Time (of ball) = 2.6 - 0.0515 =2.5485 sec Speed (of ball) = Distance/Time (of ball) = 17.5/2.5484 = 6.87 m/sec
The period of a sound wave is the time it takes for one complete cycle. To find the period, we need to know the speed of sound in the medium the wave is traveling through. The formula to calculate the period is: period = wavelength / speed of sound.
Yes, sound waves travel through a medium, such as air or water, by causing particles to vibrate back and forth. The speed at which sound travels depends on the medium it is traveling through, with sound traveling faster through denser materials like solids compared to gases. This movement of particles allows sound to be heard by our ears.
Velocity is a constant traveling speed. Acceleration is increasing traveling speed (variation of speed over time)
50 mins
You multiply the speed at which you are traveling by the time spent traveling.
Not necessarily. The distance a car travels is determined by its speed and the time it spends traveling. If a car is traveling at a slower speed but for a longer period of time, it may not cover as much distance as a car traveling at a faster speed but for a shorter period of time. So, the longest time does not always correspond to the greatest distance traveled.
The answer is that u r travelling with an average speed for that time or a constant speed . it also means that u are travelling with a uniform velocity.
Not necessarily. The speed at which the car is traveling also plays a significant role in determining the distance covered. A car traveling at a slower speed can travel for a longer time and cover less distance than a car traveling at a higher speed for a shorter amount of time.