The wavelength of the short radio waves, microwaves, ultraviolet waves are `lambda_(1),lambda_(2)` and `lambda_(3)`, respectively, Arrange them in decreasing order.

The wavelength of K_(a) , X-rays for lead isotopes Pb^(208),Pb^(206),Pb^(204)" are"lambda_(1),lambda_(2)" and"lambda_(3), resperctively. Then

Which of the following has shortest wavelength, microwave, ultraviolet wave and X-rays?

The short wavelength limits of Lyman, Paschen and Balmer series in the hydrogen spectrum are denoted by lambda_L, lambda_P and lambda_B respectively. Arrange these wavelength in increasing order.

The wavelengths of photons emitted by electron transition between two similar leveis in H and He^(+) are lambda_(1) and lambda_(2) respectively. Then :-

Hydrogen (H) , deuterium (D) , singly ionized helium (He^(+)) and doubly ionized lithium (Li) all have one electron around the nucleus. Consider n = 2 to n = 1 transition. The wavelength of emitted radiations are lambda_(1), lambda_(2), lambda_(3) and lambda_(4) respectively. then approximately

The wavelength of electron waves in two orbits (lambda_(1) : lambda_(2))

A dye absorbs a photon of wavelength lambda and re - emits the same energy into two phorons of wavelengths lambda_(1) and lambda_(2) respectively. The wavelength lambda is related with lambda_(1) and lambda_(2) as :

The wavelengths and frequencies of photons in transition 1,2 and 3 for hydrogen like atom are lambda_(1),lambda_(2),lambda_(3), v_(1),v_(2) and v_(3) respectively. Then:

In the figure shown a sinusoidal wave is generated at the end 'A' . The wave travels along positive x- axis and during its motions it encounter another string BC at the junction 'B' at x = 0 . The density of strings AB and BC and rho and 9rho respectively and their radii of cross sections are 2r and r . The wave funcation. amplitude and wavelength of incident wavs are respectively y_(r), A_(r), lambda_(r) and y_(t), A_(t), lambda_(t) repectively The ratio of wavelengths lambda_(r) to lambda_(t) (i.e. lambda_(r) : lambda_(t) ) will be

In the figure shown a sinusoidal wave is generated at the end 'A' . The wave travels along positive x- axis and during its motions it encounter another string BC at the junction 'B' at x = 0 . The density of strings AB and BC and rho and 9rho respectively and their radii of cross sections are 2r and r . The wave funcation. amplitude and wavelength of incident wavs are respectively y_(r), A_(r), lambda_(r) and y_(t), A_(t), lambda_(t) repectively The ratio of wavelengths lambda_(r) to lambda_(t) (i.e. lambda_(r) : lambda_(t) ) will be