To find out how long it takes to skate 200 feet at a constant speed of 8 feet per second, you can use the formula: time = distance / speed. Plugging in the values, time = 200 feet / 8 feet per second, which equals 25 seconds. Therefore, it takes 25 seconds to skate 200 feet at that speed.
100 feet in 10 seconds gives an average speed of 10 feet per second.
Its speed is 6 feet per second. Its velocity is 6 feet per second in whatever direction it's going.
315 feet in 9 seconds = about 35 feet per second.
To find the speed in feet per second, divide the distance by the time: 400 feet ÷ 52.4 seconds = approximately 7.64 feet per second. This means that if something travels 400 feet in 52.4 seconds, it moves at that speed.
354 meters per second with a standard military load, which translates to something around 1155 feet per second, give or take. Different loadings will result in different velocities, as with any firearm.
Jesse is traveling at 154 feet per second.
Multiply feet per second by 0.3048 to get meters per second.
983,571,056.43045 feet/second in a vacuum.
To find out how long it takes to skate 200 feet at a constant speed of 8 feet per second, you can use the formula: time = distance / speed. Plugging in the values, time = 200 feet / 8 feet per second, which equals 25 seconds. Therefore, it takes 25 seconds to skate 200 feet at that speed.
8.8 feet per second.
To determine feet per second, divide the distance in feet by the time in seconds it takes to cover that distance. The formula for calculating speed is Speed = Distance / Time. For example, if an object travels 60 feet in 10 seconds, the speed would be 60 feet / 10 seconds = 6 feet per second.
100 feet in 10 seconds gives an average speed of 10 feet per second.
The speed of light is 983,571,056 feet per second.
Speed = (distance) / (time) = 33/5 = 6.6 feet per second
To convert miles per hour to feet per second multiply by 5280 (feet in a mile) and then divide by 3600 (seconds in an hour).
The minimum speed needed to transport cobbles into a stream would depend on factors such as the size and weight of the cobbles, the flow rate of the stream, and the slope of the terrain. In general, water velocities of at least 1-2 feet per second are needed to transport cobbles in a stream.