approx. 50 seconds
Well, isn't that a delightful question! When estimating the length of a bicycle in meters, you can consider that an average adult-sized bicycle is typically around 1.7 to 2 meters long. However, it's always best to measure the specific bicycle you have in mind for a more accurate estimate. Just remember, there's no mistakes in estimating, only happy little accidents!
To calculate average speed, you would use the formula: average speed = total distance / total time. In this case, the total distance is 100 meters and the total time is 55 seconds. Therefore, the average speed would be 100 meters / 55 seconds = 1.82 meters per second.
To calculate the runner's average speed, you would use the formula: speed = distance ÷ time. In this case, the distance is 100 meters and the time is 15 seconds. Therefore, the average speed of the runner would be 100 meters ÷ 15 seconds = 6.67 meters per second.
To calculate the average speed in meters per second (ms) for a distance of 1.60 km covered in 30 minutes, first convert the distance to meters: 1.60 km is 1600 meters. Next, convert the time to seconds: 30 minutes is 1800 seconds. Finally, divide the distance by the time: average speed = 1600 meters / 1800 seconds = approximately 0.89 m/s.
Average speed = (distance covered) divided by (time to cover the distance) = 30/5 = 6 meters per second.Equivalent to 21.6 km per hour.
Time = Distance/Speed = 100/2 = 50 seconds.Time = Distance/Speed = 100/2 = 50 seconds.Time = Distance/Speed = 100/2 = 50 seconds.Time = Distance/Speed = 100/2 = 50 seconds.
You divide the distance traveled by the time.
The average distance from the Earth to the Moon is about 384,400 kilometers. In meters, this is: 384,400 kilometers × 1,000 meters/kilometer = 384,400,000 meters. So, the average distance to the Moon is approximately 384.4 million meters.
150,000,000 meters
Well, isn't that a delightful question! When estimating the length of a bicycle in meters, you can consider that an average adult-sized bicycle is typically around 1.7 to 2 meters long. However, it's always best to measure the specific bicycle you have in mind for a more accurate estimate. Just remember, there's no mistakes in estimating, only happy little accidents!
The average distance from the Earth to the Sun is 150 million kilometers.Since there are 1000 meters in 1 kilometer,150,000,000 km=150,000,000,000 meters (or 150 billion meters).
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A meter is a measure of distance. There are 1000 meters in a kilometer. Thus 63000000 meters is 63,000 kilometers. To understance the scale of that distance, the average distance from Earth to the Moon is 384,400 km so it is about 1/6 of the distance to the Moon.
No. If you divide a distance by a speed, you get a time, not a speed. For example, (meters) / (meters/second) = (seconds).
Jupiter is, on average, 5.2 AU from the Sun. 1 AU is 150 million kilometers or 150 billion meters. So, Jupiter is 780,000,000,000 meters (780 billion meters).
To calculate average speed, you would use the formula: average speed = total distance / total time. In this case, the total distance is 100 meters and the total time is 55 seconds. Therefore, the average speed would be 100 meters / 55 seconds = 1.82 meters per second.
The calculation required is: distance divided by time = average distance per second 98 meters divided by 10 seconds = 9.8 meters per second. To calculate in commonly used kilometers per hour multiply by 3600 ( to get Hours )and divide by 1000 ( to get Kilometers) or simply use 3.6 as a factor. 9.8 meters per second times 3.6 = 35.28 kilometers per hour 9.8 meters per second times 3600 divided by 1000 = 35.28 kilometers per hour