How many different photon frequencies can be emitted if an electron is in excited state N 4 in a hydrogen atom?
Table of Contents
- 1 How many different photon frequencies can be emitted if an electron is in excited state N 4 in a hydrogen atom?
- 2 How many photons of light are emitted when the electron in a hydrogen atom?
- 3 How many different electronic transitions are possible when electrons fall from N 4 to N 1?
- 4 What is the maximum number of emission lines when electron?
- 5 What is the amount of energy in kJ released when 1 mole of photons are emitted from an electron transition of n 3 to n 1?
- 6 What is the maximum number of photons emitted?
- 7 How many electron transitions are possible?
- 8 What is the maximum number of emission lines when?
How many different photon frequencies can be emitted if an electron is in excited state N 4 in a hydrogen atom?
In a large ensemble of atoms excited to n=4 you might (eventually) see 6 different frequency photons emitted.
How many photons of light are emitted when the electron in a hydrogen atom?
This value corresponds to the energy of 1 photon emitted when 1 electron makes that transition, i.e. for 1 atom of hydrogen.
What is the possible number of different photons emitted when an electron present in the 4th excited state in one H atom returns to the ground state?
6 different photons
When hydrogen atoms in a particular excited state n returns to the ground state, 6 different photons are emitted.
How many different electronic transitions are possible when electrons fall from N 4 to N 1?
6 possible transitions
Answer and Explanation: Therefore, there are 6 possible transitions when the electrons fall from the fourth energy level (n = 4) to the first energy level (n = 1).
What is the maximum number of emission lines when electron?
15
– Therefore the maximum number of emission lines formed when the excited electron of H atom in n = 6 drops to the ground state is 15. – Means an electron forms 15 emission lines when it drops from n = 6 to ground level.
What is the maximum number of spectral lines emitted by a hydrogen atom when it de excites from the third excited state?
Number of spectral lines when hydrogen electron jump from third excited state to its ground state is 6. So, maximum number of spectral lines emitted by a hydrogen atom when it is in the third excited state(n2=4) are 6.
What is the amount of energy in kJ released when 1 mole of photons are emitted from an electron transition of n 3 to n 1?
so, 182 kJ of energy is released when one mole of electrons “falls” from n = 3 to n = 2. E = hc/λ (this energy corresponds to the energy of one photon; the energy calculated in this problem is for one mole of photons so we will change this after we change the units from kJ to J)….
| n | Energy (kJ/mol) |
|---|---|
| 9 | -16.20 |
| 10 | -13.12 |
What is the maximum number of photons emitted?
A. Maximum number of different photons emitted is 4.
What is the energy of emitted photon during transition from N 4 to N 2?
We want to calculate the frequency, wavelength and energy of the emitted photon, when the atom makes a transition from ni = 4 to nf = 2. = −13.6 × 3 16 eV = 2.55 eV.
How many electron transitions are possible?
For any given energy level, the number of transitions is equal to end has n minus one over, too. So when we look at an electron transitioning from the N equals four to the N equals one energy level, we have a total of four times or minus one over too, or a total of six possible transitions.
What is the maximum number of emission lines when?
– Therefore the maximum number of emission lines formed when the excited electron of H atom in n = 6 drops to the ground state is 15. – Means an electron forms 15 emission lines when it drops from n = 6 to ground level.