You determine the volume of the cylinder by taking the area of the cross section and multiplying it by the length, and then multiplying that into the density of copper. Make sure the units match, for example if measured in inches and you want pounds, you may have to convert the densityif given in the metric system, or if you measured in inches and find a density in cubic feet you will have to do the appropriate conversion.
To calculate the total weight of a copper cylinder, you can use the formula: Weight = Density x Volume. First, calculate the volume of the cylinder using the formula for the volume of a cylinder: Ο x radius^2 x height. Then, multiply the volume by the density of copper (8.96 g/cm^3) to get the total weight of the copper cylinder.
The answer would depend upon the inside and outside diameters and the density of the copper alloy used.
If you have this information it would be calculated thus:
mass of pipe = pi times (length in centimeters) times (density, in grams, of copper alloy per cubic centimeter) times (the difference of the squares of the outside and inside diameters)
To calculate the copper tape consumption over a core, you need to know the dimensions of the core and the width of the copper tape. Multiply the perimeter of the core (circumference for a round core or total length for other shapes) by the width of the copper tape to get the total tape consumption in length. This will give you the amount of copper tape needed to cover the core once around.
To calculate the density of a cylinder, you would divide the mass of the cylinder by its volume. The equation for density is density = mass/volume. Plug in the given values for mass and volume to find the density.
To calculate the weight/weight (ww) percentage strength of the solution, divide the weight of the drug (1g) by the total weight of the solution (1g drug + weight of solvent in 2.5mL). Since the density of most common solvents is close to 1g/mL, the weight of the solvent in 2.5mL would be around 2.5g. Therefore, the total weight of the solution would be 1g (drug) + 2.5g (solvent) = 3.5g. So, the ww percentage strength of the solution would be (1g / 3.5g) * 100% = 28.57%.
Electric generators typically contain copper windings to conduct electricity. The percentage of copper in an electric generator can vary, but it can range from 20% to 30% of the total weight of the generator. Copper is favored for its high electrical conductivity and resistance to heat.
The weight of Mars with you would be the combined weight of your 201 pounds and the mass of Mars, which is approximately 639 quadrillion kilograms. To calculate the total weight, you would need to convert your weight to the equivalent mass in kilograms and then add it to the mass of Mars.
To calculate the total cost, we first need to know the weight of each cylinder. Once that is known, we can multiply the weight of one cylinder by 200 (the total number of cylinders) to get the total weight. Then, multiply the total weight by the shipping rate of $4.25 per pound to find the total shipping cost.
To calculate the total cost of shipping 200 cylinders at a rate of $4.25 per pound, you would need to know the weight of each cylinder and multiply it by 200 to get the total weight. Then, multiply the total weight by $4.25 to get the shipping cost.
30mm thickness X 1219mm (W) X 2438mm (L) copper plate 30 X 1.219 X 2.438 X 8.96 = 798.85263kgs
To calculate total weight change, you need to subtract the initial weight from the final weight. The formula is: Total weight change = Final weight - Initial weight
Measuring the mass of the graduated cylinder when it is empty allows you to determine the tare weight of the cylinder. This tare weight can then be subtracted from the total weight when the cylinder is filled with a substance to accurately measure the mass of just the substance.
An empty cylinder weighs less because it contains only the weight of the cylinder itself, whereas a filled cylinder contains the weight of both the cylinder and the substance inside it. The substance inside adds to the total weight of the filled cylinder.
To calculate the copper tape consumption over a core, you need to know the dimensions of the core and the width of the copper tape. Multiply the perimeter of the core (circumference for a round core or total length for other shapes) by the width of the copper tape to get the total tape consumption in length. This will give you the amount of copper tape needed to cover the core once around.
copper losses are power losses due to flow of current in the wires or resistances,if the resistance is R, current is I then copper losses are I2R. for a 3-phase system; copper losses are same but for a single line, total losses are 3I2R.
To find the total pressure inside the cylinder, we need to use the ideal gas law equation: PV = nRT. Given the volume, temperature, and pressure, you can calculate the number of moles of gas present. Then, you can use this to calculate the total pressure by rearranging the ideal gas law equation.
To convert a percentage to kilograms, you need to know the total weight being represented by the percentage. If you provide the total weight, I can help you calculate 15% of that weight in kilograms.
The weight of an object is typically the sum of the weights of its individual parts. Each part contributes to the total weight of the object. If you know the weight of each part, you can calculate the total weight by adding them together.
You can calculate the total carat weight by adding the individual carat weight of each stone. Without a carat weight of each of your 15 stones, it is not possible to devise a sum total carat weight.