Circumference of wheel = 2*pi*1 = 2*pi
50/2*pi = 7.957747155 nearly 8 meters
approximately 47.1238898 feet.
Velocity = distance divided by time measured in meters/second, so it would be 48/7 which is 6.85 meters per second
Light travels at approximately 299,792 kilometers per second in a vacuum. To find out how many nanoseconds it takes light to travel 3.50 meters, we can use the formula: time = distance / speed. Converting 3.50 meters to kilometers gives 0.0035 kilometers, and then calculating the time gives about 11.6 nanoseconds. Thus, it takes light approximately 11.6 nanoseconds to travel 3.50 meters.
To find the time it takes for the soccer ball to travel 6.5 meters at a velocity of 22 meters per second, you can use the formula: time = distance/velocity. Plugging in the values, time = 6.5 meters / 22 meters per second, which equals approximately 0.295 seconds. Therefore, it would take the ball about 0.3 seconds to travel that distance.
1.55 miles = 2494.4832 meters So you must travel 2494.4832 meters before you can say that you have traveled 1.55 miles.
3328.4 inches
To calculate the number of wheel rotations needed to travel a certain distance, we must first find the circumference of the wheel using the formula C = πd, where d is the diameter of the wheel. Given that the diameter is 0.5 meters, the circumference is C = π(0.5) = 1.57 meters. To travel 100 meters, the wheel would need to make 100 / 1.57 = approximately 63.69 rotations. Therefore, the wheel would need to make approximately 64 rotations to travel 100 meters.
Sound travels at a speed of approximately 1,500 meters per second in water. Therefore, in 4 seconds, sound would travel approximately 6,000 meters through water.
Light travels approximately 9,460,706,958,078,329 meters in one year.
approximately 47.1238898 feet.
Radius - travel - was created in 1992.
Velocity = distance divided by time measured in meters/second, so it would be 48/7 which is 6.85 meters per second
At 45 miles per hour, a distance of 500 meters requires about 24.8 seconds.
The speed of sound in water is approximately 1500 m/s. Therefore, it would take approximately 0.2 seconds for a sound wave to travel through 300 meters of water.
Sound travels at a speed of approximately 343 meters per second in air. To travel 1 km (1000 meters), it would take approximately 2.9 seconds.
Sound travels at a speed of approximately 343 meters per second in air at room temperature. Therefore, it would take around 0.29 seconds for sound to travel 100 meters in these conditions.
Sound travels at a speed of approximately 343 meters per second in air at room temperature. Therefore, in 2 seconds, sound can travel up to 686 meters.