total salary / 30 = one day salary 1 day salar / how many hours = per hour salary
Productivity
productivity
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heat
If an employee earned $50 per day, how many employees should be hired if each unit of output can be sold for $9.00. One employee puts out 7 units per day.
the normal urine output is 30ml per hour. so if your going to get the 24 hour output - 30x24 - it will give you 720ml per day.
Garments Productivity is normally a measurement of how effectively labor and capital are turned into products. It is mostly represented as the amount of output per hour that your garment is capable of producing. For most garments, the higher the production rate, the better. That is why many organizations and companies strive to produce more by using less. Better you calculate the rate of production by using the number of units produced over a certain period of time. This period can range from a month to a year.
Total Variable Cost divided by Quantity of Output
In 24 hours it's output is about 1.0 to 1.8 liters
your output should be relatively close to what you intake. A normal person will have anywhere from 400cc's to 900cc's
To calculate the output of a gas fire, you need to know the heat input rating of the gas fire in British thermal units per hour (BTU/hr) or kilowatts (kW). The heat output is typically a percentage of the heat input, commonly around 70-90%. You can calculate the heat output by multiplying the heat input by the efficiency percentage (e.g. heat output = heat input x efficiency percentage).
Nearly 1200-1500mL urine is excreted per day.
Calculate 1000000 x 365 [days per year] x 24 [hours per day] x 60 [minutes per hour].Calculate 1000000 x 365 [days per year] x 24 [hours per day] x 60 [minutes per hour].Calculate 1000000 x 365 [days per year] x 24 [hours per day] x 60 [minutes per hour].Calculate 1000000 x 365 [days per year] x 24 [hours per day] x 60 [minutes per hour].
Beats per minute x 60 minutes per hour x 24 hours per day
Average urine output is atleast 0.6 liters or 600 mL.
It quantified in kW per area or kWh per area per day since the output of wind power is electricity.