800g of water would be 800mL of water, so a liter beaker or graduated cylinder could hold that volume of water.
Length*Width*height
Work done (joules) and time taken (seconds) is the information needed to calculate power in watts (joules/second).
Absolute instruments are rarely used except in laboratories and for scientific work.The quantity to be measured will be given in terms of deflection and the constant of the instrument.No calibration is needed in this type of instruments.Division on the graduated scale will not have any value marked on it. example:tangent galvanometer
Multiply the fraction 3/4 * 20 to get 60/4. That simplifies to 15. You can also multiply by 20/1 if the denominator is needed as a placeholder.
To find the density of an irregular shaped object, you would need a balance to measure its mass, a graduated cylinder to measure its volume by displacement method, and a ruler to measure its dimensions for calculations.
To find out the density of a material, you will need a balance to measure the mass of the material, and a ruler to measure its volume. The equipment required varies depending on the state of the material (solid, liquid, or gas). Additional equipment such as a graduated cylinder or displacement method may be needed for liquids.
To calculate the force that a hydraulic cylinder can exert, you would need to know the hydraulic pressure being applied to the cylinder and the effective area of the piston inside the cylinder. The formula to calculate the force is force = pressure x area.
To find out the density of a pebble, you will need a balance or scale to measure its mass, and a graduated cylinder filled with water to measure its volume using water displacement method. The density of the pebble can then be calculated by dividing its mass by its volume.
A balance or scale is commonly used to measure the mass of a liquid. The liquid is often placed in a container on the balance, which then provides a readout of the mass. Alternatively, a volumetric flask or graduated cylinder can be used to measure the volume of the liquid, which can then be used to calculate the mass if the density of the liquid is known.
Technically, for a liquid, one could use Erlenmeyer flasks or beakers to measure volume; however, it will not be as accurate as a graduated cylinder. A buret can also be used to measure the volume of a liquid if more accurate results are needed.
A graduated cylinder or a micropipette would be appropriate laboratory equipment for measuring out 8.0 ml of liquid accurately.
To calculate the density of an object, you need to measure its mass (in grams or kilograms) and its volume (in cubic centimeters or cubic meters). Density is calculated by dividing the mass of the object by its volume. The formula for density is density = mass/volume.
use a graduated cylinder with the lowest capacity (greater than 26ml) if extreme accuracy is needed, (as I suspect with the small amount stated) I might use a scale, measuring by weight instead of volume (dropper may be needed to add to weight needed).... but you must adjust weight according to specific gravity or the only accurate liquid measured by 25.3 grams weight would be WATER :P
you can't unless you have a set of weighing scales mass = density * volume density is needed to work out mass if you have volume if you worked out the mass then you could divide it by volume to get density
things needed: graduate cylinder, water, and the rock 1) fill the graduated cylinder to the top with water 2) next, take the rock and slowly emerge it into the water ( water will spill over the top of the glass so do so in a sink or outside on the cement ) 3) last, the amount of water left in the cylinder is the volume of your rock
To calculate the weight of a steel round, you can use the formula: weight = volume * density. The factor needed would be the density of steel, which is typically around 7850 kg/m³. By knowing the density and the volume of the steel round, you can easily calculate its weight.