ready set no clue : ]
The answer will depend on whether the larger cylinder is 4 times larger in terms of radius, cross-sectional area, or volume. If radius, multiply the smaller radius by 4. If cross-sectional area, multiply the smaller radius by 2. If volume, you do not have enough information.
Put it in a graduated cylinder. a) Find a graduated cylinder big enough to hold a can of Coke. b) Make sure it has a small scale. (Smaller scales are more accurate.) c) Fill the graduated cylinder with water to a mark on the cylinder. d) Find how much higher the water is when you drop the can in.
because its as big as you fatty
That's going to depend on how big a circle the round base is. The bigger the base is, the shorter the cylinder is. Whatever the diameter of the base is, the height of the cylinder will be (3.82) divided by (the square of the diameter of the base).
How big wide and long it is..
The answer will depend on whether the larger cylinder is 4 times larger in terms of radius, cross-sectional area, or volume. If radius, multiply the smaller radius by 4. If cross-sectional area, multiply the smaller radius by 2. If volume, you do not have enough information.
Put it in a graduated cylinder. a) Find a graduated cylinder big enough to hold a can of Coke. b) Make sure it has a small scale. (Smaller scales are more accurate.) c) Fill the graduated cylinder with water to a mark on the cylinder. d) Find how much higher the water is when you drop the can in.
One way to find the volume of a large rock is to use the water displacement method. Fill a container with a known volume of water, then carefully lower the rock into the water. Measure the change in water level to determine the volume of the rock.
It depends on how big the glass is. You use the same formula you use for a cylinder.
Drop the object into a graduated cylinder 50 mL half full of water and find the difference in volume. If it is too big for a measuring cylinder then make a small hole in the side of a plastic container, fill with water to this hole, drop the object in and collect the run off. Measure the volume of the run off.
To calculate the volume of a cylinder in gallons, you need to know the radius and height. The formula to calculate the volume of a cylinder is πr^2h, where r is the radius and h is the height. Once you have these values, you can convert the volume to gallons based on the conversion rate of 1 gallon = 231 cubic inches.
First find the mass of the object. You need to find the volume of the irregular object. You do this by water displacement. If the object can fit into a graduated cylinder, you fill the cylinder with enough water to completely cover the object. DO NOT put the object in yet. Record that volume. Then gently place the object into the cylinder and record the new volume of water. The difference between the first and second volume is the volume of the object in mL, which is the same as cm3. If the object is too big to fit in a graduated cylinder, you can use an overflow can. You fill the can completely with water. The can has a downspout that will allow the water to flow out of the can. To do this, fill an overflow can completely with water. Allow the excess water to drain out of the downspout. Then place a beaker under the downspout. Gently put the object into the overflow can and catch the water that flows out in the beaker. Pour the water into a graduated cylinder and read the volume. This is the volume of the irregular solid. You can also hold a graduated cylinder under the downspout and let the water flow into the cylinder directly. The volume in the cylinder is the volume of the irregular object. Once you have the volume of the irregular solid, you can use the density formula to find density. Density = mass/volume. See the related links below.
because its as big as you fatty
the graduated cylinder made a really big difference when the doctors use it to measure the volume
That's going to depend on how big a circle the round base is. The bigger the base is, the shorter the cylinder is. Whatever the diameter of the base is, the height of the cylinder will be (3.82) divided by (the square of the diameter of the base).
How big wide and long it is..
go to the school then go left, there will be a big pine tree. climb it and you will find the scrap of paper