Discharge concerning Recession Constant Calculator

✖Discharge at Time t=0 is the rate of flow of a liquid that moves over a designated point over a fixed period.ⓘ Discharge at Time t=0 [Q₀]			+10% -10%
✖Recession Constant is the ratio of discharge after the unit time step of some specific initial discharge to specific initial discharge, provided both discharges are along the same straight segment.ⓘ Recession Constant [K_r]			+10% -10%
✖Time is the continued sequence of existence and events that occurs in an irreversible succession from the past to the present and future.ⓘ Time [t]			+10% -10%

✖Discharge at Time t is the volumetric flow rate of a stream, which volume of water flowing per rate of time at any time t.ⓘ Discharge concerning Recession Constant [Q_t]

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Discharge concerning Recession Constant Solution

STEP 0: Pre-Calculation Summary

Formula Used

Discharge at Time t = Discharge at Time t=0*Recession Constant^Time
Q_t = Q₀*K_r^t
This formula uses 4 Variables

Variables Used

Discharge at Time t - (Measured in Cubic Meter per Second) - Discharge at Time t is the volumetric flow rate of a stream, which volume of water flowing per rate of time at any time t.
Discharge at Time t=0 - (Measured in Cubic Meter per Second) - Discharge at Time t=0 is the rate of flow of a liquid that moves over a designated point over a fixed period.
Recession Constant - Recession Constant is the ratio of discharge after the unit time step of some specific initial discharge to specific initial discharge, provided both discharges are along the same straight segment.
Time - (Measured in Second) - Time is the continued sequence of existence and events that occurs in an irreversible succession from the past to the present and future.

STEP 1: Convert Input(s) to Base Unit

Discharge at Time t=0: 50 Cubic Meter per Second --> 50 Cubic Meter per Second No Conversion Required
Recession Constant: 0.1683 --> No Conversion Required
Time: 2 Second --> 2 Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Q_t = Q₀*K_r^t --> 50*0.1683^2

Evaluating ... ...

Q_t = 1.4162445

STEP 3: Convert Result to Output's Unit

1.4162445 Cubic Meter per Second --> No Conversion Required

FINAL ANSWER

1.4162445 ≈ 1.416245 Cubic Meter per Second <-- Discharge at Time t

(Calculation completed in 00.004 seconds)

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< Components of a Hydrograph Calculators

Discharge at Initial Time in Alternative Form of Exponential Decay

LaTeX Go Discharge at Time t=0 = Discharge at Time t/exp(-Constant 'a' for Discharge in Exponential Decay*Time)

Discharge in Alternative Form of Exponential Decay

LaTeX Go Discharge at Time t = Discharge at Time t=0*exp(-Constant 'a' for Discharge in Exponential Decay*Time)

Discharge at Initial Time

LaTeX Go Discharge at Time t=0 = Discharge at Time t/(Recession Constant^Time)

Discharge concerning Recession Constant

LaTeX Go Discharge at Time t = Discharge at Time t=0*Recession Constant^Time

Discharge concerning Recession Constant Formula

LaTeX Go

Discharge at Time t = Discharge at Time t=0*Recession Constant^Time
Q_t = Q₀*K_r^t

What is What is Baseflow recession?

A Recession curve of streamflow so adjusted that the slope of the curve represents the runoff depletion rate of the groundwater. A curve is formed by the observed hydrograph during prolonged periods of no precipitation.

How to Calculate Discharge concerning Recession Constant?

Discharge concerning Recession Constant calculator uses Discharge at Time t = Discharge at Time t=0*Recession Constant^Time to calculate the Discharge at Time t, The Discharge concerning Recession Constant formula is defined as the fluid flow when recession, derived from a simple exponential equation, is used to characterise the behaviour of low flows. Discharge at Time t is denoted by Q_t symbol.

How to calculate Discharge concerning Recession Constant using this online calculator? To use this online calculator for Discharge concerning Recession Constant, enter Discharge at Time t=0 (Q₀), Recession Constant (K_r) & Time (t) and hit the calculate button. Here is how the Discharge concerning Recession Constant calculation can be explained with given input values -> 1.416245 = 50*0.1683^2.

FAQ

What is Discharge concerning Recession Constant?

The Discharge concerning Recession Constant formula is defined as the fluid flow when recession, derived from a simple exponential equation, is used to characterise the behaviour of low flows and is represented as Q_t = Q₀*K_r^t or Discharge at Time t = Discharge at Time t=0*Recession Constant^Time. Discharge at Time t=0 is the rate of flow of a liquid that moves over a designated point over a fixed period, Recession Constant is the ratio of discharge after the unit time step of some specific initial discharge to specific initial discharge, provided both discharges are along the same straight segment & Time is the continued sequence of existence and events that occurs in an irreversible succession from the past to the present and future.

How to calculate Discharge concerning Recession Constant?

The Discharge concerning Recession Constant formula is defined as the fluid flow when recession, derived from a simple exponential equation, is used to characterise the behaviour of low flows is calculated using Discharge at Time t = Discharge at Time t=0*Recession Constant^Time. To calculate Discharge concerning Recession Constant, you need Discharge at Time t=0 (Q₀), Recession Constant (K_r) & Time (t). With our tool, you need to enter the respective value for Discharge at Time t=0, Recession Constant & Time and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Discharge at Time t?

In this formula, Discharge at Time t uses Discharge at Time t=0, Recession Constant & Time. We can use 2 other way(s) to calculate the same, which is/are as follows -

Discharge at Time t = Discharge at Time t=0*exp(-Constant 'a' for Discharge in Exponential Decay*Time)
Discharge at Time t = Total Storage in Channel Reach*Constant 'a' for Discharge in Exponential Decay

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