calculate the volume of water a drum can take the drum is 72inch diameter by60inch height
To calculate the volume of the drum, use the formula for the volume of a cylinder: V = πr^2h, where r is the radius (half the diameter) and h is the height of the cylinder. The radius (r) is 80cm / 2 = 40cm = 0.4m. Therefore, the volume of the drum is V = π(0.4)^2(1.2) ≈ 0.602 cubic meters.
To calculate the center of buoyancy, you need to determine the volume of the object first. The given dimensions suggest that the object is a cylinder. Calculate the volume of the cylinder using the formula for the volume of a cylinder (π * radius^2 * height), convert the thickness to meters, and then subtract the volume of the inner cylinder (π * (radius-thickness)^2 * height) to find the volume of the material. Finally, determine the center of buoyancy which would be at the center of the object's volume.
To calculate the volume of an irregular object you will need a container with meaurements and water. Place the irregular object in your container and fill with water until the entire object is covered. Record volume A. Then remove the irregular object and record volume B. The volume of your irregulare object is equal to volume A minus volume B.
Get a sample of the metal. Use a scale to find its mass. If it is shape is that of a rectangular solid (box) measure length, width, and height and multiply to find volume. If it is irregularly shaped, use the water displacement method to find its volume. Divide the mass by the volume to get the density.
you multiply the length times width times height and you should get the volume. If the solid is of uneven shape, immerse it in the known volume of water and note the increase in volume of water due to inclusion of solid. This extra volume of water created by displacement is the volume of that solid.
To calculate the mass of water, you can multiply the density of water (1 g/cm3 or 1000 kg/m3) by the volume of water. The formula is: mass = density x volume. For example, if you have 1 liter of water, the mass would be 1000 grams.
Volume of water = (pi) x (Radius of the well)2 x (depth of the water)
The easy way: Pour the water into a graduated container, like a graduated cylinder, and read the volume directly. The hard way: Calculate the volume of a regularly shaped container (cylindrical or rectangular). Pour the water into the container. Measure the height of the water in the container. Calculate the volume of the unfilled portion of the container. Subtract this volume from the total volume of the container.
Results obtained by multiplying the length and width and height of the internal volume of the bath tub bath tub.
Volume is length*width*height in cubic units. If this is not possible then when an object is immersed in water the water displaced is equal to the volume of the object which was discovered by Archimedes.
Volume = Area of cross section x height
Length times width times height (lwh) is a way to figure out volume. If you try to do it with water displacement, the wood will adorn the water and ruin the calculations.
The volume of water displaced is equal to the volume of the object submerged into the water
Is 0.08m the length or width of this rectangular aquarium? Need both measurements to calculate the volume of water, unless this is a SQUARE shaped aquarium.
You find the volume and the weight of the cream. The weight should be easy using a scale. The volume can be found by taking a container of water. If it is marked (indicating cups or deciliters) fill it so the cream can go under water. Note the height of water, put in cream, note new height of water. The difference is the volume of the cream. If container not marked, fill it the the rim, put in cream, collect water that is spilled, measure volume of spilled water (=volume of cream). . The density is weight per volume. (E.g. 20 grams/1.2 deciliters)
Subtract what is left from the original volume.
Can not be done without the 'Given' radius and height.
If the density of the block is less than the density of water, then the block will float. Density of water is close to 1 gram per cubic centimeter. So measure the block and calculate its volume (Length x Width x Height). Use a scale to find the block's mass. Then divide mass/volume to calculate density. If you've measured in grams and centimeters, then the units will be g/cm³, then compare this to 1 g/cm³.