speed = distance/time = 1000m / 5s = 200 m/s
It is 200 metres per second.
That depends upon what the 1000 Hz is, along with the medium through which the 1000 Hz is traveling. The speed of most waves is not dependent on frequency. If that is 1000 Hz of electromagnetic radiation, then its speed (in a vacuum) is approx 3x108 m/s meaning in 1 second it travels approx 3x108 m or approx 186000 miles. It travels at this speed regardless of the frequency. If it is sound in air at room temperature and atmospheric pressure, then its speed is approx 343 m/s so in 1 second it travels 343 m. Through solid objects, sound travels much faster.
Speed = frequency x wavelength. 200 hertz = 200 waves per second. These 200 waves will have a speed of 200*300 = 60,000 m/s The 1000 waves will have the same speed but it will take 5 times longer to travel the 300 metres.
If you mean the average speed, simply divide the total distance by the total time.
The average speed is defined as the distance travelled per unit time. It is calculated as the ratio of the total distance covered divided by the total time taken for covering that distance.In tis case, therefore, the speed is 8.3/2.08 = 3.9904 metres per second.
You need to convert the minutes into seconds so that the units match. 1 minute = 60 seconds 20 minutes = 1200 seconds speed = distance travelled divided by the time taken so- speed = 1000m divided by 1200s speed = 8.333m/s
A car that travels 1000 kilometers in 5 hrs, averages 200km/h.
1000/10 kph
That depends upon what the 1000 Hz is, along with the medium through which the 1000 Hz is traveling. The speed of most waves is not dependent on frequency. If that is 1000 Hz of electromagnetic radiation, then its speed (in a vacuum) is approx 3x108 m/s meaning in 1 second it travels approx 3x108 m or approx 186000 miles. It travels at this speed regardless of the frequency. If it is sound in air at room temperature and atmospheric pressure, then its speed is approx 343 m/s so in 1 second it travels 343 m. Through solid objects, sound travels much faster.
1000 KMPH
An average speed of 50.27 mph is the record for completion of the Iditarod.1000 mph
There are 1000 m in 1 km and 3600 sec in 1 hr so 65 x 1000/3600 = 650/36 = a whisker over 18 mps
Speed = frequency x wavelength. 200 hertz = 200 waves per second. These 200 waves will have a speed of 200*300 = 60,000 m/s The 1000 waves will have the same speed but it will take 5 times longer to travel the 300 metres.
If we know the speed and the time taken for a body to cover a distance, then we can find the distance covered by it as follows: distance=speed*time
An average speed of 50.27 mph is the record for completion of the Iditarod.1000 mph
An average speed of 50.27 mph is the record for completion of the Iditarod.1000 mph
If you mean the average speed, simply divide the total distance by the total time.
Around 95 mph.