To calculate the residence time of water in a system, you divide the total volume of water in the system by the rate at which water enters or exits the system. This gives you the average amount of time a water molecule stays in the system before leaving.
The residence time of water in a lake is calculated by dividing the volume of water in the lake by the rate at which water flows into or out of the lake. This helps determine how long water typically stays in the lake before being replaced.
Convert the 200 mol of water to kilograms of water.
The residence time of water in the atmosphere is around 9 days on average. This means that water molecules remain in the atmosphere for about 9 days before returning to Earth as precipitation.
Relative humidity is calculated by dividing the actual amount of water vapor in the air by the maximum amount of water vapor the air can hold at a given temperature, and then multiplying by 100 to get a percentage. This calculation helps determine how saturated the air is with moisture.
This information can help calculate the molar mass of water, which is 18 g/mol. By dividing the given mass of water by the number of moles, we get the molar mass.
The water pressure formula is P gh, where P is the pressure, is the density of water, g is the acceleration due to gravity, and h is the height of the water column. This formula can be used to calculate the pressure in a given system by plugging in the values for density, gravity, and height of the water column.
To calculate water potential in a system, you add the pressure potential and solute potential. Pressure potential is the physical pressure exerted on the water, while solute potential is influenced by the concentration of solutes in the water. The formula for water potential is p s.
The rate of condensation formula is used to calculate the amount of water vapor that changes into liquid per unit time in a given system. It is typically expressed as the mass of water vapor condensed per unit time.
The residence time of water in a lake is calculated by dividing the volume of water in the lake by the rate at which water flows into or out of the lake. This helps determine how long water typically stays in the lake before being replaced.
Water head pressure calculations for a given system can be accurately determined by using the formula: pressure density of water x gravitational constant x height of water column. This formula takes into account the density of water, the gravitational constant, and the height of the water column to calculate the pressure accurately.
To calculate the heat lost by hot water in a system, you can use the formula Q mcT, where Q is the heat lost, m is the mass of the water, c is the specific heat capacity of water, and T is the change in temperature. This formula helps determine the amount of heat energy transferred from the hot water to the surroundings.
To calculate water pressure in a closed system, you can use the formula: Pressure Force/Area. This means that pressure is equal to the force exerted on the water divided by the area over which the force is applied. By knowing the force and the area, you can calculate the water pressure in the closed system.
Yes, shut off water to entire residence if residence totally dependent on electric, including heat. If residence heated by hot water or steam heating system, water needs to be ON to boiler for heating system. Anything else that has water going to it can be turned off if it has a separate valve for it. Electric water heater should have power turned off and gas water heater should have gas turned off. Outside hydrant hoses should be disconnected.
To calculate water pressure in a closed system, you can use the formula: Pressure Force/Area. This means that pressure is equal to the force applied on the water divided by the area over which the force is distributed. This calculation helps determine the amount of pressure exerted by the water within the closed system.
Volume of water = (pi) x (Radius of the well)2 x (depth of the water)
Convert the 200 mol of water to kilograms of water.
A head is the part of the sprinkler that distributes the water over the lawn. You calculate it into the irrigation system by knowing how much area one head covers and then placing them accordingly.