Yes, a well yield of 10 gallons per minute (GPM) is considered good for residential use, providing sufficient water for household needs, irrigation, and other activities. Most homes typically require between 5 to 10 GPM, depending on the number of occupants and water usage. A well producing 10 GPM is generally adequate for a family and can support moderate irrigation without significant issues. However, the suitability also depends on local water demands and aquifer conditions.
This really depends on where you are and a lot of other factors. A minimum acceptable flow rate for a family of 4 would be about 3 gallons per minute into the well. A "good" (good flow rate, we aren't taking about the quality of the water here, just the volume) well would produce 5 or more gallons per minute. According to my local well driller here in Western PA, a "gusher" is 20 gallons per minute coming into the well.
To convert the volume of a pipe in meters to Imperial gallons, you would need to know the cross-sectional area of the pipe as well as its length. Given the inside diameter (ID) of 102 mm, the radius would be 51 mm. Using the formula for the area of a circle (A = π * r^2) and the conversion factor of 1 cubic meter = 219.9692 Imperial gallons, you can calculate the volume and then convert it to Imperial gallons.
If you are thinking of gallons of water:Water equals 8.35 pounds per gallon.Specific gravity of water is 1g per cm3The number of gallons in 50 lb = 50 / 8.35= 6.0 gallons
None - well not without knowing what the substance of the 2.3 gallons is and its density.A gallon is a unit of volumeA gram is a unit of weightVolume and weight are different things that are related by density (= weight/volume).The weight of 2.3 gallons of something depends upon its density. 2.3 gallons of mercury is much-much heavier than 2.3 gallons of water.
Well, darling, 100 kilograms is a measure of mass, not volume. Gallons are used to measure volume, not weight. So, there's no direct conversion between the two. It's like comparing apples to oranges, honey.
None. The well, as described, is a 2-dimensional obect which has no volume.
The answer will depend on what mass and volume of food as well as the distance that it needs to be transported.
This really depends on where you are and a lot of other factors. A minimum acceptable flow rate for a family of 4 would be about 3 gallons per minute into the well. A "good" (good flow rate, we aren't taking about the quality of the water here, just the volume) well would produce 5 or more gallons per minute. According to my local well driller here in Western PA, a "gusher" is 20 gallons per minute coming into the well.
Milliliters are an unit of volume, second is a unit of time. you might as well ask how many gallons there are in a year.
To convert the volume of a pipe in meters to Imperial gallons, you would need to know the cross-sectional area of the pipe as well as its length. Given the inside diameter (ID) of 102 mm, the radius would be 51 mm. Using the formula for the area of a circle (A = π * r^2) and the conversion factor of 1 cubic meter = 219.9692 Imperial gallons, you can calculate the volume and then convert it to Imperial gallons.
There isn't any. Meters is distance, milliliters is volume - no conversion exist. You might as well try converting gallons to miles.
To calculate the value of 5 gallons of dimes, we first need to determine the volume of dimes in a gallon. A dime has a diameter of 17.91 mm and a thickness of 1.35 mm, resulting in a volume of approximately 4.51 cubic centimeters. Converting this to gallons, we find that there are approximately 0.00119 gallons in a single dime. Therefore, 5 gallons of dimes would be equivalent to approximately 4,201 dimes.
Good Question? Well there are many different sizes of pools. You can find the volume of one by Multiplying the Length X Width X Depth . Say a pool that is 10ft x 20ft x 8ft = 1600ft3 There is 7.4805 Gallons per cubit foot. Therefore this pool would be 11,969 gallons.
Doesn't work. Milliters is volume, centimeters is length, distance. They don't translate. Might as well ask about how many gallons in a yard.
It is necessary to know the length as well as the width and depth of the pool in order to calculate its volume.
Well Yeah
Oh, dude, you're asking about gallons in Mount Everest? Well, technically, Mount Everest doesn't have gallons because it's a mountain, not a liquid. But if you're wondering about the volume of water that could be melted from the snow and ice on Everest, it's estimated to be around 200 billion gallons. So yeah, that's a lot of water, but definitely not something you can just scoop up and take home in a gallon jug.