no the column length does not matter. All that matters is the pressure inside it (I'm assuming it is a hollow column with a piston inside), and the cross sectional area inside the column, equal to the surface area of the piston. If you're talking about a hollow tank shaped like a cylinder and a pump is pressuring it up, then the length may matter. What "force" are you talking about?
To calculate pressure in a pipe, you can use the formula: Pressure Force/Area. Factors to consider in the calculation include the flow rate of the fluid, the diameter and length of the pipe, the viscosity of the fluid, and any obstructions or bends in the pipe that may affect the flow.
To calculate thermal diffusivity, divide the thermal conductivity of a material by its density and specific heat capacity. Factors to consider in the calculation include the material's composition, temperature, and physical state.
Elasticity is calculated by dividing the percentage change in quantity by the percentage change in price. Factors considered in the calculation include the availability of substitutes, necessity of the good, and time period under consideration.
Parentheses
To calculate velocity in a pipe, you can use the formula: velocity flow rate / cross-sectional area of the pipe. Factors to consider in the calculation include the diameter of the pipe, the type of fluid flowing through it, and any obstructions or bends in the pipe that may affect the flow.
no
A sum has to include two or more numbers in the calculation.
No
Yes, the cumulative GPA calculation includes grades from all colleges attended.
Net profit is calculated by taking in calculation all expenses incurred by the firm in the fiscal year. So it includes all fixed expenses as well as variable expenses to calculate net profit.
Pressure underwater is calculated by multiplying the depth of the water by the density of the fluid and the acceleration due to gravity. The formula is pressure depth x density x gravity. Factors that affect pressure underwater include the depth of the water, the density of the fluid, and the acceleration due to gravity.
yes