Work is basically energy. If you multiply distance in meters times force in newton, for example to push or pull something, you get the amount of energy required, in joules. You can then convert that into calories if you like, although it would be better if everybody started to use standard SI units, in this case joule! However, the energy thus calculated is only a theoretical minimum; the way our muscles and our body in general work, there is a fair amont of overhead, so your actual energy expenditure will probably be much more in most cases.
A=Vf-Vi/t Acceleration is the final velocity minus the initial velocity divided by the time it too to reach it
W= F x D or Work equals Force times Displacement (Distance)
Wavelength frequencies are calculate by using a scientific formula. The formula is: f = c/lambda. The f equals the frequency, c is the speed of light and lambda is the wavelength.
This formula is the ideal gas law. It relates different measurements in a gas, and has nothing to do with power.
The formula to find velocity is: V = D. (VELOCITY equals distance divided by time) T
Speed equals distance divided by time. By rearranging that formula, we get time equals distance divided by speed.
In the world of exercising and training, there is a simple formula to calculate how many calories are burned during a period of training, which is that to burn 100 calories, you need to run a mile. This means that since there 5km equals to 3.1mi, then you burn 300 calories approximately by running 5km.
v=nr2h
Calories are calculated through proteins, carbohydrates and fats. 1 gram of protein equals 4 calories, 1 gram of carbohydrates equals 4 calories and 1 gram of fat equals 9 calories. Together these make up the calories in anything one consumes.
We always calculate distance by multipying the speed by time. ex: I travelled in 10 min at the speed of 60km/h , so the distance equals to 60 times 10 which equals to 600 km....
Time equals distance divided by speed.
Time equals distance divided by rate.
Time equals Distance divided by rate
unknown person
A=Vf-Vi/t Acceleration is the final velocity minus the initial velocity divided by the time it too to reach it
s over 1/2t2 = a
volts divided by resistance equals maximum amperage (current)