LCM of three numbers

Shielding Constant for Np Electron Calculator

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✖Number of Electrons in Same Group is the number of electrons in the same valence shell or nth cell.ⓘ Number of Electrons in Same Group [E_n]			+10% -10%
✖Number of Electrons in n-1 Group is number of electrons in the first group after the required electron group.ⓘ Number of Electrons in n-1 Group [E_n-1]			+10% -10%
✖Number of Electrons in n-2 Group and Counting are the remaining electrons in the lower groups.ⓘ Number of Electrons in n-2 Group and Counting [E_n-2]			+10% -10%

✖Shielding Constant for Np is the effective shielding of electrons in Np orbital.ⓘ Shielding Constant for Np Electron [S_Np]

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Shielding Constant for Np Electron Solution

STEP 0: Pre-Calculation Summary

Formula Used

Shielding Constant for Np = (0.35*Number of Electrons in Same Group)+(0.85*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting)
S_Np = (0.35*E_n)+(0.85*E_n-1)+(1*E_n-2)
This formula uses 4 Variables

Variables Used

Shielding Constant for Np - Shielding Constant for Np is the effective shielding of electrons in Np orbital.
Number of Electrons in Same Group - Number of Electrons in Same Group is the number of electrons in the same valence shell or nth cell.
Number of Electrons in n-1 Group - Number of Electrons in n-1 Group is number of electrons in the first group after the required electron group.
Number of Electrons in n-2 Group and Counting - Number of Electrons in n-2 Group and Counting are the remaining electrons in the lower groups.

STEP 1: Convert Input(s) to Base Unit

Number of Electrons in Same Group: 2 --> No Conversion Required
Number of Electrons in n-1 Group: 2 --> No Conversion Required
Number of Electrons in n-2 Group and Counting: 2 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

S_Np = (0.35*E_n)+(0.85*E_n-1)+(1*E_n-2) --> (0.35*2)+(0.85*2)+(1*2)

Evaluating ... ...

S_Np = 4.4

STEP 3: Convert Result to Output's Unit

4.4 --> No Conversion Required

FINAL ANSWER

4.4 <-- Shielding Constant for Np

(Calculation completed in 00.004 seconds)

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< Slater's Rules Calculators

Shielding Constant for Ns Electron

LaTeX Go Shielding Constant for Ns = (0.35*Number of Electrons in Same Group)+(0.85*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting)

Shielding Constant for Np Electron

LaTeX Go Shielding Constant for Np = (0.35*Number of Electrons in Same Group)+(0.85*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting)

Shielding Constant for Nd Electron

LaTeX Go Shielding Constant for Nd = (0.35*Number of Electrons in Same Group)+(1*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting)

Shielding Constant for 1s Electron

LaTeX Go Shielding Constant for 1s = 0.30*Number of Electrons in Same Group

Shielding Constant for Np Electron Formula

LaTeX Go

Shielding Constant for Np = (0.35*Number of Electrons in Same Group)+(0.85*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting)
S_Np = (0.35*E_n)+(0.85*E_n-1)+(1*E_n-2)

How does shielding happen?

Shielding happens when electrons in lower valence shells (or the same valence shell) provide a repulsive force to valence electrons, thereby "negating" some of the attractive force from the positive nucleus.

How to Calculate Shielding Constant for Np Electron?

Shielding Constant for Np Electron calculator uses Shielding Constant for Np = (0.35*Number of Electrons in Same Group)+(0.85*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting) to calculate the Shielding Constant for Np, The Shielding Constant for Np Electron formula is defined as the effective shielding of electrons in Np orbital. Each electron is said to experience less than the actual nuclear charge, because of shielding or screening by the other electrons, which is given by Slater's rules. Shielding Constant for Np is denoted by S_Np symbol.

How to calculate Shielding Constant for Np Electron using this online calculator? To use this online calculator for Shielding Constant for Np Electron, enter Number of Electrons in Same Group (E_n), Number of Electrons in n-1 Group (E_n-1) & Number of Electrons in n-2 Group and Counting (E_n-2) and hit the calculate button. Here is how the Shielding Constant for Np Electron calculation can be explained with given input values -> 4.4 = (0.35*2)+(0.85*2)+(1*2).

FAQ

What is Shielding Constant for Np Electron?

The Shielding Constant for Np Electron formula is defined as the effective shielding of electrons in Np orbital. Each electron is said to experience less than the actual nuclear charge, because of shielding or screening by the other electrons, which is given by Slater's rules and is represented as S_Np = (0.35*E_n)+(0.85*E_n-1)+(1*E_n-2) or Shielding Constant for Np = (0.35*Number of Electrons in Same Group)+(0.85*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting). Number of Electrons in Same Group is the number of electrons in the same valence shell or nth cell, Number of Electrons in n-1 Group is number of electrons in the first group after the required electron group & Number of Electrons in n-2 Group and Counting are the remaining electrons in the lower groups.

How to calculate Shielding Constant for Np Electron?

The Shielding Constant for Np Electron formula is defined as the effective shielding of electrons in Np orbital. Each electron is said to experience less than the actual nuclear charge, because of shielding or screening by the other electrons, which is given by Slater's rules is calculated using Shielding Constant for Np = (0.35*Number of Electrons in Same Group)+(0.85*Number of Electrons in n-1 Group)+(1*Number of Electrons in n-2 Group and Counting). To calculate Shielding Constant for Np Electron, you need Number of Electrons in Same Group (E_n), Number of Electrons in n-1 Group (E_n-1) & Number of Electrons in n-2 Group and Counting (E_n-2). With our tool, you need to enter the respective value for Number of Electrons in Same Group, Number of Electrons in n-1 Group & Number of Electrons in n-2 Group and Counting and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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