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A conventional baby scale can be used to calculate urine output. Weight the diaper before putting it on your baby, and then again when it is wet.
The person's speed is 2 meters per second. The power required for him to accomplish that depends on his weight, on his efficiency of movement, on whether he's moving horizontally or vertically, etc., all of which the question neglects to specify.
The net output of useful work is (weight) times (gain in height) = 2,000 newton-meters = 2,000 joules.The rate of doing the work, and adding to his gravitational potential energy,is (2,000/40) = 50 joules per second = 50 watts.He certainly had to generate and expend more power than that in order to accomplish the climb.But most of the energy he expended went into heating his muscles and the rest of his body.50 watts is the power that went into the useful part of hoisting his weight to a position of fivemeters higher than where he started.
Output distance is.
No, I am not an output in math.
quantisation is the assigning the signal amplitudes to some levels,if amplitude is 4.8 we treat it as 5 and when it is 3.1 the output value is 3 thus we are assigning the amplitude to some reference levels thus corresponds to different amplitudes we get different quantisation output hence we get staircase signal
It gives your weight.
A conventional baby scale can be used to calculate urine output. Weight the diaper before putting it on your baby, and then again when it is wet.
The person's speed is 2 meters per second. The power required for him to accomplish that depends on his weight, on his efficiency of movement, on whether he's moving horizontally or vertically, etc., all of which the question neglects to specify.
400
Raising 250 kg by 2 meters = 500 kgm-meters = 500 Joules of potential energy added to the load.If this maneuver is accomplished in 2 seconds, then the rate of delivering energy to the load is500/2 = 250 joules per second = 250 watts = roughly 1/3rd horsepower.
Multiply 200 MW by the amount of time (in seconds) that the plant runs (86400 seconds in a day). This gives 1.728 * 10^16 Joules in a single day.
60,000 joules per 10 seconds = 6,000 joules per second = 6,000 watts
EQUIPMENT OUTPUT DERATION: Particular example is the Generator Set installed at 1000 meters above sea level the power output is derated due to pressure.
2 every 60 seconds
You can calculate this by measuring the energy the sun casts onto one square meter, and then multiplying that by the number of square meters on a sphere of radius 1 AU (presuming you are doing this all from Earth.) The energy the Sun casts on one square meter in one second is known as the solar constant: 1.4×103 Joules Then for "total" amount of sunlight you would multiply this by the number of seconds in ten billion years. 3.15 ×1017 Seconds 2.81 ×1023 Square Meters So 1.23 ×1044 Joules of energy will be the total solar output if I haven't made any embarrassing mathematical errors. This of course does not account for variations in the solar output: the sun is currently in a trend of increasing output, and will have massively increased rates for a short period when it swells up to a red giant.
No. The voltage of the charger's output is only 7.5 volts. This is not high enough to charge a 9 volt battery device.