Volume_of_cylinder = π x radius2 x height
= π x (6/2)2 x 7
= 63π cubic units.
≈ 197.92 cubic units
1 liter = 1000 cubic centimeters
1 cubic meter = 1000 liters
So (assuming your measurements are in the same units) you will need to convert the 197.92 cubic units to cubic centimeters and then divide by 1000 to get the answer in liters; or convert it to cubic meters and multiply by 1000 to get it into liters.
Let me try and give you a hint. There is something called fluid flow formula. You basically need to know the speed at which the water is flowing and (in this case) the hose length and diameter. Well, it depends on how fast the water is running. Get a clock. Start filling a 10 liter bucket and stop after one minute. Is the bucket full (10 liters per minute), or half full (5 liters per minute)? Or did the bucket fill in half a minute (20 liters per minute)? The answer is in your hands (or in your bucket).
261.66
about 17.7 liters if the pipe is 100% full. Volume of pipe = CA*Length Vol = (pi/4)*(dia.)2*(length) = 0.7854*(0.0225m2)*(1m) = 0.0177m3 1 m3 = 1000 liters, so the answer is 17.7 liters
Assuming: an 8 inch inside diameter, 1 gallon of water weighs 8.345404 pounds, 231 cubic inches of water to the gallon, volume of cylinder = Pi * radius^2 * height volume=3.14 * 4^2 * (4000 * 12) volume = 3.14 * 16 * 48,000 = 2,411,520 cubic inches 2,411,520 cubic inches of water when full. -------------------------------------------------------------------------- A 4000 foot cylinder/pipe with an 8 inch inside diameter, if full of water, will contain 10,439.48 gallons of water weighing a total of 87,121.68 pounds or 43.56 tons.
96 litres.
A diameter of 30cm gives a radius of 15cm. The volume of a cylinder is {pi} x radius2 x height The volume required to fill to three quarters full is: volume = {pi} x (15cm)2 x 151cm x 3/4 ~= 80052cm3. 1 l = 1000cm3 => volume ~= 80.052 l So a little over 80 liters of water will be required, regardless of its density which will play a role in working out how much the 80+ liters of water will weigh (and thus whether the container is strong enough to actually contain it).
It depends on what's in all those liters. If they're full of air, then they add up to only about 52.2 kg. If they're full of water, they add up to about 40,250 kg, or 40.25 metric tons. If they're full of stones or lead, they make a lot more than that. If those liters are completely empty, then they contain nothing but a lot of space, and zero kg.
No, we can't swim in one hundred litres of water. 100 liters would be a regular bath tub, about half full.
no
That is approximately 1 litre
Let me try and give you a hint. There is something called fluid flow formula. You basically need to know the speed at which the water is flowing and (in this case) the hose length and diameter. Well, it depends on how fast the water is running. Get a clock. Start filling a 10 liter bucket and stop after one minute. Is the bucket full (10 liters per minute), or half full (5 liters per minute)? Or did the bucket fill in half a minute (20 liters per minute)? The answer is in your hands (or in your bucket).
261.66
A circular tank is 12 meter in diameter and 7.5 meter in height. how much water does it hold when half full?
about 17.7 liters if the pipe is 100% full. Volume of pipe = CA*Length Vol = (pi/4)*(dia.)2*(length) = 0.7854*(0.0225m2)*(1m) = 0.0177m3 1 m3 = 1000 liters, so the answer is 17.7 liters
Assuming: an 8 inch inside diameter, 1 gallon of water weighs 8.345404 pounds, 231 cubic inches of water to the gallon, volume of cylinder = Pi * radius^2 * height volume=3.14 * 4^2 * (4000 * 12) volume = 3.14 * 16 * 48,000 = 2,411,520 cubic inches 2,411,520 cubic inches of water when full. -------------------------------------------------------------------------- A 4000 foot cylinder/pipe with an 8 inch inside diameter, if full of water, will contain 10,439.48 gallons of water weighing a total of 87,121.68 pounds or 43.56 tons.
195: 60% = 0.60; (0.60)(325) = 195.
there is no diameter for a diameter must have a full circle, and Mars has an elliptical orbit.