area r(pi)
1*2=.5 inch radius
.5^2=.25
.25*3.14=.785
volume (pi)r^2
hose length- 100 linear ft
12in/ft
100*12= 1200 linear inches
1200*.785=942 cubic inches
1 gallon water= 231 cubic inches
942/231=4.07 gallons
1 gallon water= 8 pounds
4.07*8=32.56 pounds of water
I do a little bit of gardening so I am guessing the hose weighs about 10 pounds
So your hose fully charged probably weight about 43 pounds.
apx4 gallons of water
There need not be any water at all in the hose! The capacity of the hose is 3.41 cubic feet.
50 feet of 2.5-inch diameter hose has a volume of: 1.7 cubic feet (12.72 liquid gallons)
That section of hose holds 25.5 gallons of water when it's full, which weighs about 213 pounds. To that, add the weight of the empty hose, which I don't know.
If it's full of water, then the water in it weighs about 106.5 pounds. I have no way of knowing what the empty hose weighs by itself. Whatever it is, you'll need to add that to 106.5 pounds.
Weight of 50ft section of 3 inch hose with water in it?
Assuming the hose has an inner diameter of 1 inch, 100 feet of 3" hose filled with water would weigh approximately 6,242 pounds.
There need not be any water at all in the hose! The capacity of the hose is 1.67 cubic feet.
There need not be any water at all in the hose! The capacity of the hose is 3.41 cubic feet.
A standard fire hose is 50 feet long. A hose this length with a 2-inch radius grants about 4.36 cubic feet. This volume holds 32 gallons of water.
The weight of rubber hose varies depending on the density of the rubber material. On average, a 4-inch rubber hose weighs about 0.15-0.2 pounds per foot. So, 100 feet of 4-inch rubber hose would weigh approximately 15-20 pounds.
The capacity of a 25 ft hose with a diameter of 3 inches is 1.23 cubic feet. That is the maximum volume of water in the hose: there need not be any!
50 feet of 2.5-inch diameter hose has a volume of: 1.7 cubic feet (12.72 liquid gallons)
A 100-foot hose with an inside diameter of five inches can hold 102 US gallons of water.
The filled weight of a 50-foot section of 12-inch diameter hose can be calculated by considering the volume of water it holds and the weight of that water. A 12-inch diameter hose has a cross-sectional area of about 1 square foot, and 50 feet of hose would have a volume of approximately 50 cubic feet. Since water weighs about 62.4 pounds per cubic foot, the filled weight of the hose would be around 3,120 pounds (50 cubic feet x 62.4 pounds/cubic foot).
That section of hose holds 25.5 gallons of water when it's full, which weighs about 213 pounds. To that, add the weight of the empty hose, which I don't know.
A 2.5 inch fire hose has a capacity of approximately 60 gallons per 100 ft. Therefore, a 50 ft hose would hold around 30 gallons of water.
Around 943 lbs. Water weighs 8.33 lbs/gal. 5 inch hose holds 1 gal per 1 foot of hose. So 8.33x100 foot is 833 lbs. Add that to the 110 lbs that the hose weighs empty and you have 943 lbs