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The binding energy of an electron in t...

The binding energy of an electron in the gorund state of He atom is equal to `E_0 = 24.6 eV.` Find the energy required to remove both electrons form the atom.

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To find the energy required to remove both electrons from the helium atom, we can follow these steps: ### Step 1: Understand the Binding Energy The binding energy of an electron in the ground state of the helium atom is given as \( E_0 = 24.6 \, \text{eV} \). This value represents the energy required to remove one electron from the atom. ### Step 2: Calculate the Energy Required to Remove the First Electron When the first electron is removed, the helium atom becomes a singly ionized helium ion (He\(^+\)). The binding energy of the first electron can be calculated using the formula for the energy levels of hydrogen-like atoms: \[ ...
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DC PANDEY-MODERN PHYSICS - 1-Level 1 Subjective
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  2. In the Bohr model of the hydrogen atom, what is the de-Broglie wavelen...

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  3. The binding energy of an electron in the gorund state of He atom is ...

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  4. Hydrogen atom is its ground state is excited by means of monochromatic...

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  5. A doubly ionized lithium atom is hydrogen like with atomic number 3. F...

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  6. Find the quantum number n corresponding to nth excited state of He^(++...

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  7. A hydrogen like atom (described by the Bohr model) is observed ot emit...

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  8. The energy levels of a hypothetical one electron atom are shown in t...

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