The Balmer hydrogen atom comes with spectrum and H-atom ranges from the wave number RZsq(1/2-1/n2).
The series is termed with Fraunofer line wavelengths and numbers denotes by series.
The minimum and maximum range can be measured by 1.219*10⁷respectively.
It should be taken with series and use for accessing with Balmer series of hydrogen waves.
☸ Required answer is ⬇ ⬇ ⬇ ⬇
⭕ D). 1.219*10⁷
Vielen Dank ♥
TRICK : shortest wavelength means to jump from the nearest energy line.
Balmer is in 2 and the jump is made from orbit 3
Was it helpful
Isn't that a brainliest answer
hope this will help you.
please mark me a tag of thanks and brainlist
The Rydberg Formula and Balmer's Formula
The λ symbol represents the wavelength, and RH is the Rydberg constant for hydrogen, with RH = 1.0968 × 107 m−1. You can use this formula for any transitions, not just the ones involving the second energy level.
If you want you can join in google meet
Max wavelength is 6568
prefer to it child
Calculate the longest and shortest wavelength in the Balmer series of hydrogen atom. Given Rydberg constant =1.0987×107m-1.
Shortest Transition of the Balmer series is from n₁ = 2 and n₂ = 3.
Longest Transition of the Balmer Series is from n₁ = 2 and n₂ = Infinity.
Shortest Transition means the longest wavelength and the Longest Transition means the shortest wavelength.
Using the Rydberg Equation for Hydrogen Atom,
1/λ₁ = R(1/n₁² - 1/n₂²)
1/λ₁ = R(1/4 - 1/9)
1/λ₁ = R(5/36)
λ₁ = 36/5R
Also, 1/λ₂ = R(1/n₁² - 1/n₂²)
1/λ₂ = R(1/4 - 1/Infinity²)
1/λ₂ = R/4
λ₂ = 4/R
Now, λ₁/λ₂ = 36/5R ÷ 4/R
λ₁/λ₂ = 9/5
λ₁ : λ₂ = 9 : 5
Hope it helps.
Since wavelength and energy are inversely related, the longest wavelength would be produced by the lowest amount of energy. That would be by the electron falling from from n = 3 (ni) to n = 2 (nf). (All Balmer series lines have nf = 2). lambda = 1 / (1.52 x 10^6 m) = 6.56 x 10^-7 m = 656 nm . . .that's a RED line.
This is also known as the Hα line of atomic hydrogen and is bight red (Figure 1.4. 4). Since 1˜ν=λ in units of cm, this converts to 364 nm as the shortest wavelength possible for the Balmer series.
hope it's to
mark as brainliest
then let it flow .. why are you