Your idea is quite impractical.
REMOVE SOME LOAD LoL
for a disc type (electromechanical) meter the number of disc revolutions to indicate 1 kwh would be found by the formula 1000/ Kh, the watthour constant of the meter.
A standard test current for a Class 10 watthour meter typically ranges from 0.5 A to 5 A, depending on the specific design and application of the meter. This current level is used to evaluate the meter's accuracy and performance under load conditions. Class 10 meters are designed for certain accuracy standards, ensuring they can measure energy consumption reliably in residential and commercial settings. Testing at this current helps validate the meter's calibration and functional integrity.
0.0002777 meter per second
A point at a distance of x metres from the centre of an object travels through 2*pi*x metres for each revolution. So if the object is rotating at r revolutions per second, the point in question is travels through 2*pi*x*r metres in a second.
It is a meter per second.
You cannot convert minutes to meter per second. because minutes is a time unit and meter per second is a velocity unit.
231m
meter per second is a unit of rate. It means that it is the distance traveled in meters per one second.
a. Meter per second and d. kg meter per second are SI units because they involve the base SI units meter (m) and kilogram (kg). b. Minute per meter, c. gram per second, and e. km per second are not SI units as they do not use the base SI units.
Force . . . . . . . . . kilogram-meter per second2 = newton Distance. . . . . . . meter Work, Energy. . . newton-meter = joule Power . . . . . . . . joule per second = watt Time. . . . . . . . . . second
In France, during the Revolution, in 1793.