Wiki User
โ 13y ago4 liters per 25 seconds = 9.6 liters/minute
Wiki User
โ 13y agoTo calculate the flow rate in liters per minute, first convert 25 seconds to minutes by dividing by 60 (25 seconds / 60 = 0.4167 minutes). Then, divide the volume (4 liters) by the time in minutes (0.4167 minutes) to get the flow rate: 4 liters / 0.4167 minutes โ 9.6 liters per minute.
To calculate the time it takes to discharge 300 m3 of water, first convert the volume to liters: 1 m3 = 1000 liters, so 300 m3 = 300,000 liters. Then, divide the total volume by the flow rate to get the time. In this case, 300,000 liters / 2 liters per second = 150,000 seconds, or approximately 41.7 hours.
To convert from liters per minute (L/min) to standard liters per minute (SLM), you would need to account for the temperature and pressure of the gas. Standard liters per minute represent the flow rate of gas at standard conditions of 0 degrees Celsius and 1 atmosphere pressure. To make the conversion, you would need to adjust the flow rate based on the actual temperature and pressure conditions.
Faucet flow rates can vary, but a typical household faucet in the US might flow at a rate of 2.2 gallons per minute, which is approximately 8.3 liters per minute.
LPM stands for Liters Per Minute and is a flow measurement unit commonly used for gases. It measures the volume of gas passing through a point in a system per minute. It is frequently used in applications such as gas flow regulators and medical devices.
No, revolutions per minute (RPM) and liters per minute (L/min) are two different units of measure that cannot be directly converted to each other without additional information like the size of the object being rotated and its volumetric capacity. RPM is a measure of rotational speed, while L/min is a measure of volume flow rate.
This question is not specific enough to answer. If we knew which type of flow rate you were speaking of we could answer this. For example there is a volumetric flow rate which is the volume of fluid that passes through any given surface per unit time.
liters per minute
Voltage
Can't say because this depends on the flow coming out of the shower head. If the flow is 1ltr per minute then in 10 minutes you will use 10 litres The average shower in the US flows at a rate of 7.9 liters per minute, or 2.1 gallons per minute. A ten minute shower would consume 79 liters or 21 gallons of water.
To convert from liters per minute (L/min) to standard liters per minute (SLM), you would need to account for the temperature and pressure of the gas. Standard liters per minute represent the flow rate of gas at standard conditions of 0 degrees Celsius and 1 atmosphere pressure. To make the conversion, you would need to adjust the flow rate based on the actual temperature and pressure conditions.
Gallons per minute is the amount of gallons used or moved or saved for every minute of time that passes. If you wanted to calculate how many gallons were pumped through a water fountain every minute, you would measure this and divide the gallons by the minutes and get your "gallons per minute".
The duration a size E oxygen cylinder will last depends on the flow rate in liters per minute set on the regulator. A size E cylinder typically holds around 680 liters of oxygen. At a flow rate of 2.0 liters per minute, the cylinder would last approximately 340 minutes, which is about 5.7 hours.
To calculate the time it takes to discharge 300 m3 of water, first convert the volume to liters: 1 m3 = 1000 liters, so 300 m3 = 300,000 liters. Then, divide the total volume by the flow rate to get the time. In this case, 300,000 liters / 2 liters per second = 150,000 seconds, or approximately 41.7 hours.
A size D oxygen cylinder typically contains 425 liters of oxygen. At a flow rate of 4 liters per minute, the cylinder would last approximately 106 minutes.
The amount of water a hosepipe uses depends on its flow rate, which is measured in liters per minute or hour. To calculate the total amount of water used, you would need to know the flow rate and the duration the hosepipe is run.
The duration a size H cylinder of heliox will last depends on the flow rate it is used at. For example, if the flow rate is 4 liters per minute, a size H cylinder typically lasts around 4.5 hours. You can calculate the estimated duration by dividing the cylinder's capacity (in liters) by the flow rate (in liters per minute).
It would depend on the density of the fluid. N * 0.453592 / D N is the value of pounds per minute. 0.453592 is the number of pounds in a kilogram. D is the fluid density in kilograms per liter. For water, this would be 1.