How many spectral lines are possible when an electron jumps from 5th orbit to 2nd orbit in hydrogen atom?

Hence, Number of lines in the Balmer series = n2−2=6−2=4.

When electron jumps from 5th orbit to 2nd orbit to which series the spectral line belongs?

Balmer series
Lyman series is formed when the electron returns the lowest orbit while Balmer series is formed when the electron returns to the second orbit.

When an electron jumps from 5th excited state to 2nd excited state the number of lines produced in Balmer series is?

Answer: The number of lines produced in Balmer series is 0. The number of lines produced in Balmer series is because in Balmer series the electron comes to first energy level from the higher energy levels.

How many spectral lines will be observed when an electron jumps from 5?

Three spectral lines will be obtained in the line spectrum.

How many line spectra is obtained when an electron of H atom jumps from 5th to 3rd orbit?

3 spectral lines
When an electron jumps down from 5th Bohr orbit to 3rd Bohr orbiit in H atom it can jump directly or it can jump to 4th Bohr orbit first and from it, jump to the 3rd Bohr orbit. Thus, we get 3 spectral lines for these 3 transitions.

When an electron jumps directly from 5th Shell to 2nd shell No of packets of energy released will be?

The number of transitions possible are 6.

When the electron in the H atom jumps from the fifth orbit?

When an electron jumps down from 5th Bohr orbit to 3rd Bohr orbiit in H atom it can jump directly or it can jump to 4th Bohr orbit first and from it, jump to the 3rd Bohr orbit. Thus, we get 3 spectral lines for these 3 transitions.

When electrons are excited to 5th state from ground state the number of spectral lines in Balmer series of absorption spectrum are?

( c) Visible lines ⇒ Balmer series (5→2,4→2,3→2). So 3 lines.

How many spectral lines are obtained when an electron jumps from 5th excited level to ground level?

Number of spectral lines produced n(n−1)2=5(5−1)2=5×42=10.

How many spectral lines are obtained when an electron jumps from N 5 to N 1 in an hydrogen atom?

Originally Answered: How many spectral lines are seen for hydrogen atom when an electron jumps from n=5 to n=1 in a visible region? So for a jump from n=5 to n=1, delta(n) =4. So 4 x 3 / 2 = 6.

How many spectral line will be observed when an electron jumps from N 5 to N 1 in the visible line spectra of H spectrum?

Three spectral lines
Three spectral lines will be obtained in the line spectrum.

How many spectral lines are seen for hydrogen atom when electron jump?

how many spectral lines are seen for hydrogen atom when electron jump from n2=5 and n1=1 in visible region?? If the electron jumps from n 2 = 5 to n 1 = 1 then following are the transitions possible. Hence there are 10 transitions and hence 10 spectral lines possible.

How many lines are formed when electrons jump from upper orbit?

As when electron jump from any upper orbit to orbit number 2 , a visible line formed (BALMER SERIES). SO WHEN FROM 5 TO 2 ONE LINE , 4 TO 2 SECOND LINE AND 3 TO 2 THIRD LINE IN VISIBLE RANGE. NOTE- TOTAL LINE PRODUCE ARE 10 INCLUDING INFRARED AND ULTRAVIOLET AS PER PROBABITY FORMULA Should I hire remote software developers from Turing.com?

How many lines are visible when electron returns from 5th orbit?

Number of visible lines when an electron returns from 5th orbit to the ground state in the H spectrum is 10. . = 10. These lines belong to the UV region. Note: Lyman series corresponds to transitions to n = 1 level. Was this answer helpful?

How many spectral lines can be emitted from a single transition?

Hence there are 10 transitions and hence 10 spectral lines possible. The general formula for the number of spectral lines emitted is 2 2 Queries asked on Sunday & after 7pm from Monday to Saturday will be answered after 12pm the next working day. Have an account? Did’t recieve OTP?