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A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!
Power = (energy) / (time) = (35 x 5) / 19 = 175 newton-meters / 19 seconds = 9.2105 watts (rounded)
6.7 times 10 to the -3 power
2.6 hours = 2.6*60 minutes = 156 minutes = 156*60 seconds = 9360 seconds.
Power is measured in watts, or joules per second. So in 90 seconds, 1200 joules of work is equal to 1200/90 watts or 13.3 watts.
a lot
25 watts NOOOOOOOOOOOO! you are sooo wrong,. i hate to correct you but it bloody 250 okay so when you give an answer MAKE SURE ITS FRIKEN WRITE NEXT TIME BLACKMAN!
You can increase power by walking up the stairs in LESS time.
The power used to walk up a flight of stairs is given by the formula: Power = work / time. Work done is force times distance, so W = Fd. From here, you can calculate power using the given values of force (F), distance (d), and time (t) walked up the stairs.
To calculate power, you can use the formula: Power = Work / Time. To find the work done, you can use the formula: Work = Force x Distance. First, calculate the work done by the man (Work = 100 kg x 9.81 m/s^2 x 14 m). Then, find the power by dividing the work by the time (Power = Work / Time).
There is no specific limit to the height of stairs used with a certain horsepower. The height of stairs and the horsepower developed in climbing them are dependent on various factors including the design and efficiency of the staircase, the weight of the individual climbing the stairs, and the speed at which the stairs are climbed. Generally, higher stairs would require more power to climb, but this can vary based on individual circumstances.
Frank's power output is 400 watts (W). This is calculated by dividing the work done (2400 J) by the time taken (6 seconds), which results in a power output of 400 W.
I believe that the amount of power/energy you exert on yourself climbing up the stairs is wasted, and the faster you go, the faster the power is used up. It takes a lot of energy to go up one flight of stairs than it does going down five or so, depending on the body type of the person and maybe even the amount of gravity in that specific area.
It takes more power to run up the same stairs faster.
Using the formula for power, which is Power = Work/Time, you can calculate the work done by the secretary (Work = Force x Distance). The force the secretary is exerting is equal to her weight (mass x gravity), and the speed is distance over time. Once you calculate the work done, you can divide it by the time to find the average power supplied.
One joule is the amount of energy required to apply a force of one newton through a distance of one meter (one newton-meter), or it is the amount of energy required to produce one watt of power for one second (one watt-second).If we assume that you have a mass of 200 pounds or 91 kilograms, then it requires a force of 891 newtons (91 * 9.82) to support you. This force will be the same whether you are standing still or climbing, even though it will momentarily change when you accelerate, so we can use 891 newtons.If we then assume that a flight of stairs is about 3 meters, we can calculate the power to climb up at 891 * 3 = 2672 joules per flight.Lets look at the light bulb. That one is easy. 100 watts is 100 joules per second.Now the question is, how fast can you climb? Let assume 10 seconds per flight of stairs. That translates to 267 joules per second, so you use nearly three times the energy of a 100 watt light bulb to climb stairs. (Two times, if you climb a little bit slower.)
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