Admittance Calculator

Formula

The formula to calculate the Admittance is:

\[ Y = \frac{1}{Z} \]

Where:

\( Y \) is the Admittance (Siemens).
\( Z \) is the Impedance (Ohms).

Example

Let's say the impedance is 50 Ohms. The admittance would be calculated as follows:

\[ Y = \frac{1}{50} = 0.02 \text{ Siemens} \]

So, the admittance is 0.02 Siemens.

What is Admittance?

Admittance is a measure of how easily a circuit or device allows an electric current to flow through it. It is the reciprocal of impedance, which measures the opposition to current flow. Admittance is typically represented by the letter 'Y' and is measured in siemens (S). It includes both conductance (real part of admittance, which allows current flow without phase shift) and susceptance (imaginary part of admittance, which allows current flow with phase shift).

Extended information about "Admittance-Calculator"

Calculate the Equivalent Admittance

Definition: Admittance is the measure of how easily a circuit or device will allow a current to flow. It is the inverse of impedance.

Formula: \( Y = \frac{1}{Z} \)

\( Y \): Admittance (Siemens)
\( Z \): Impedance (Ohms)

Example: \( Y = \frac{1}{50} \)

Admittance: \( Y \)
Impedance: \( Z = 50 \) Ohms

How to Find Total Admittance

Definition: Total admittance is the sum of individual admittances in a parallel circuit.

Formula: \( Y_{\text{total}} = Y_1 + Y_2 + \ldots + Y_n \)

\( Y_{\text{total}} \): Total admittance
\( Y_1, Y_2, \ldots, Y_n \): Individual admittances

Example: \( Y_{\text{total}} = 0.02 + 0.03 + 0.05 \)

Total admittance: \( Y_{\text{total}} \)
Individual admittances: \( Y_1 = 0.02 \), \( Y_2 = 0.03 \), \( Y_3 = 0.05 \)

Impedance to Admittance Calculator

Definition: An impedance to admittance calculator converts impedance values to admittance values.

Formula: \( Y = \frac{1}{Z} \)

\( Y \): Admittance (Siemens)
\( Z \): Impedance (Ohms)

Example: \( Y = \frac{1}{75} \)

Admittance: \( Y \)
Impedance: \( Z = 75 \) Ohms

Rate of Administration Calculation

Definition: The rate of administration calculation determines the rate at which a medication or fluid is administered.

Formula: \( \text{Rate} = \frac{\text{Volume}}{\text{Time}} \)

\( \text{Rate} \): Rate of administration (mL/hr)
\( \text{Volume} \): Volume to be administered (mL)
\( \text{Time} \): Time over which the volume is administered (hours)

Example: \( \text{Rate} = \frac{500}{4} \)

Rate: \( \text{Rate} \)
Volume: 500 mL
Time: 4 hours

Full Amount to Remittance

Definition: The full amount to remittance calculation determines the total amount to be remitted after deductions.

Formula: \( \text{Remittance} = \text{Total Amount} - \text{Deductions} \)

\( \text{Remittance} \): Amount to be remitted
\( \text{Total Amount} \): Total amount before deductions
\( \text{Deductions} \): Total deductions

Example: \( \text{Remittance} = 1000 - 200 \)

Remittance: \( \text{Remittance} \)
Total Amount: 1000
Deductions: 200