a.The schrodinger wave equation for hydr...

a.The schrodinger wave equation for hydrogen atom is `psi_(2s) = (1)/(4sqrt(2pi)) ((1)/(a_(0)))^((3)/(2)) (2 - (r_(0))/(a_(0)))e^((-(r )/(a))`
When `a_(0)` is Bohr's radius. Let the radial node in `2s` be at `r_0` .Then find `r_(0)` in terms of `a_(0)` .
b. A base ball having mass `100 g` moves with velocity `100 m s^(-1) `.Find the value of the wavelength of the base ball.

Text Solution

Verified by Experts

The correct Answer is:

(a)`r_(0)=2a_(0)" "(b)6.626xx10^(-25)Å`

Topper's Solved these Questions

ATOMIC STRUCTURE
ALLEN|Exercise Exercise - 04[B]|13 Videos
IUPAC NOMENCLATURE
ALLEN|Exercise Exercise - 05(B)|8 Videos

Similar Questions

Explore conceptually related problems

a.The schrodinger wave equation for hydrogen atom is psi_(2s) = (1)/(4sqrt(2pi)) ((1)/(a_(0)))^((3)/(2)) (2 - (r_(0))/(a_(0)))e^((-(r )/(a)) When a_(0) is Bohr's radius Let the radial node in 2s be n at Then find r_(0) in terms of a_(0) b. A base ball having mass 100 g moves with velocity 100 m s^(-1) .Find the value of teh wavelength of teh base ball

The Schrodinger wave equation for hydrogen atom is Psi_(2s) = (1)/(4sqrt(2pi)) ((1)/(a_(0)))^(3//2) (2 - (r)/(a_(0))) e^(-r//a_(0)) , where a_(0) is Bohr's radius . If the radial node in 2s be at r_(0) , then r_(0) would be equal to :

The Schrodinger wave equation for hydrogen atom is psi_(2s) =1/(4sqrt(2pi)) (1/(a_(0)))^(3//2)(2-r/(a_(0)))e^(-t//a_(0)) where a_0 is Bohr's radius. If the radial node in 2 s be at r_0 , then r_0 would be equal to

[" The Schrodinger wave equation "],[" for hydrogen atom is: "],[qquad [psi_(2s)=(1)/(4sqrt(2 pi))((1)/(a_(0)))^(3/2)(2-(r_(0))/(a_(0)))e^((-r_(0))/(a_(0))),],[" where "a_(0)" is Bohr's radius.If the "],[" radial node is "2s" be at "r_(0)," then the "],[" value of "(r_(0))/(a_(0))" is "]]

The wave function of 2s electron is given by W_(2s) = (1)/(4sqrt(2pi))((1)/(a_(0)))^(3//2)(2 - (r )/(a_(0)))e^(-1 a0) It has a node at r = r_(p) .Find the radiation between r_(p) and a

Consider psi (wave function) of 2s atomic orbital of H-atom is- psi_(2s)=(1)/(4sqrt(2pia_(0)^(3//2)))[2-(r )/(a_(0))]e^.(r )/(2a_(0) Find distance of radial node from nucleous in terms of a_(0)

ALLEN-ATOMIC STRUCTURE-Exercise - 05[A]

A gas absorbs a photon of 355 nm and emits at two wavelengths . If on...
Text Solution
|
The frequency of light emitted for the transition n = 4 to n =2 of He^...
Text Solution
|
The increasing order of the ionic radii of the given isoelectronic spe...
Text Solution
|
The electrons, identified by quantum number n and l i. n = 4,l=1 ii....
Text Solution
|
Which of the following is the energy of a possible excited state of h...
Text Solution
|
A stream of electrons from a heated filament was passed between two ch...
Text Solution
|
The total number of orbitals associated with the principal quantum num...
Text Solution
|
Rutherford's experiment , which established the nuclear model of atom...
Text Solution
|
The spin magnetic moment of cobalt in the compound Hg[Co(SCN)(4)] is
Text Solution
|
The radius of which of the following orbit is same as that of the firs...
Text Solution
|
a.The schrodinger wave equation for hydrogen atom is psi(2s) = (1)/(4s...
Text Solution
|
a.Calculate the velocity of an electron in the first Bohr's orbit of ...
Text Solution
|
Given in hydrogen atom r(n),V(n),E,K(n) stand for radius, potential en...
Text Solution
|
Match the entries in Column I with the correctly related quantum numbe...
Text Solution
|
The hydrogen -like species Li^(2+) is in a spherically symmetric stat...
Text Solution
|
The hydrogen -like species Li^(2+) is in a spherically symmetric stat...
Text Solution
|
The hydrogen -like species Li^(2+) is in a spherically symmetric stat...
Text Solution
|
The maximum number of electrons can have principal quantum number n ...
Text Solution
|
The work function (phi) of some metals is listed below. The number of...
Text Solution
|
The kinetic energy of an electron in the second Bohr orbit of a hydrog...
Text Solution
|