Capacity of container divided by rate of flow
Draw a flow chart to calculate simple interest with 10% rate if time is greater than 2 yrs otherwise calculate simple interest with 5%.
height + width + depth = linear Previous answer: 45 linear inches
There are linear feet, and square feet, but no "linear square feet".
No, there is a linear relationship.
The relationship between fluid flow rate and flow radius is not linear nor exponential. It is described by the Hagen-Poiseuille equation which shows that the flow rate is directly proportional to the fourth power of the radius of the tube. This means that a small change in the radius of the tube can have a significant impact on the flow rate.
Flow meters are used to measure the linear, nonlinear, mass, or volumetric flow rate of a liquid or gas.
Capacity of container divided by rate of flow
To calculate flow rate you divide volume (50mL) by time (120 seconds.)Hope this helps.
This is the ratio volume/time.
The relationship between fluid flow rate and flow tube radius is typically nonlinear and follows a power law relationship. As the flow tube radius increases, the flow rate also increases, but not in a linear fashion. Instead, the relationship is often modeled using equations involving powers or roots of the tube radius.
The steam flow rate can be calculated by dividing the mass flow rate of the steam by the specific volume of the steam at the given conditions. This can be determined using steam tables or steam property calculators. The formula to calculate steam flow rate is: Flow rate (lb/h) = Mass flow rate (lb/h) / Specific volume (ft^3/lb)
To calculate the flow rate in a pipeline, you can use the formula Q = A * V, where Q is the flow rate (volume per unit time), A is the cross-sectional area of the pipeline, and V is the velocity of the fluid in the pipeline. The units of flow rate are typically volume per unit time (e.g., cubic meters per second). You may need to know the density of the fluid flowing in the pipeline to convert the flow rate to a mass flow rate.
To calculate air velocity in a pipe, you would need to measure either the volumetric flow rate or the mass flow rate of air flowing through the pipe. You can then use the formula: air velocity = volumetric flow rate / cross-sectional area of the pipe, or air velocity = mass flow rate / (density of air * cross-sectional area of the pipe).
The mass of water used in the first six minutes depends on the rate of flow of water. If we know the flow rate, we can calculate the mass using the formula: Mass = flow rate x time.
Yes, the rate of change can be linear or non-linear.
To calculate surge in a compressor, you would need to determine the maximum flow rate and pressure that the compressor can handle without stalling. This can be done through performance mapping or testing. Surge is typically defined as the flow rate at which the compressor stalls due to flow reversal.