Using Bohr atomic model, drive expression for calculating the radius of orbits in He+
. Using this expression, calculate the radius of fourth orbit of He+
ion.
plz
ans me in detail
Answers
Answered by
4
Acoording to the Bohr atomic model,
radius of any orbit=(0.529).n^2/z A
where n is no of orbit and z is atomic number.
radius of 4th orbit of He+ =(0.529) x (4)^2/2=(0.529) x8=4.232A
radius of any orbit=(0.529).n^2/z A
where n is no of orbit and z is atomic number.
radius of 4th orbit of He+ =(0.529) x (4)^2/2=(0.529) x8=4.232A
kvnmurty:
qn says derive the expression.
Answered by
5
Bohr's
radius for the nth Orbit: (n = principal quantum number)
Let
R = Bohr' radius for an atom of atomic number Z,
n = orbit number = principal quantum number = 4
h = Planck's constant = 6.626 * 10⁻³⁴ units
K = 1/(4πε₀) = 9 * 10⁹ N-m²/C² = Coulomb's constant
Z = 2 for Helium
m = mass of an electron = 9.1 * 10⁻³¹ kg
e = charge on the electron = 1.602 * 10⁻¹⁹ C
a) centripetal force = electrostatic attraction between an electron and protons.
m v² / R = K (Z*e) * e / R²
=> v² = K Z e² / (m R) --- (1)
b) Angular momentum = m v R = n h / 2π (integral multiple of h/2π)
=> v = n h / (2 π m R) --- (2)
c) from (1) and (2):
n² h² / (4π² m² R²) = K Z e² / (m R)
=> R = n² h² / (4π² m K e² Z) --- (3)
= n² * 6.626² * 10⁻⁶⁸ / [ 4π² * 9.1 * 10⁻³¹ * 9* 10⁹ * 1.6² * 10⁻³⁸ * Z ]
= 0.529 * n² / Z °A
= 0.529 * 4² / 2 °A
= 4.232 °A
==========
We can also calculate other physical quantities as follows:
d) Linear Speed of electron (in the circular orbit) by substituting for R
=> v = (2 π K e² Z) / (n h)
e) Potential energy of the electron:
We ignore gravitational potential energy here.
PE = - K * Z * e * e / R = - K Z e² / R --- (4)
= - [4 π² m K² Z² e⁴ ] / (n² h²)
f) Kinetic energy of electron:
=> 1/2 * m * v² = (π m * R e² Z ) / (n h)
= [ 2 π² K² Z² e⁴ m ] / (n² h²) = - P.E / 2
Let
R = Bohr' radius for an atom of atomic number Z,
n = orbit number = principal quantum number = 4
h = Planck's constant = 6.626 * 10⁻³⁴ units
K = 1/(4πε₀) = 9 * 10⁹ N-m²/C² = Coulomb's constant
Z = 2 for Helium
m = mass of an electron = 9.1 * 10⁻³¹ kg
e = charge on the electron = 1.602 * 10⁻¹⁹ C
a) centripetal force = electrostatic attraction between an electron and protons.
m v² / R = K (Z*e) * e / R²
=> v² = K Z e² / (m R) --- (1)
b) Angular momentum = m v R = n h / 2π (integral multiple of h/2π)
=> v = n h / (2 π m R) --- (2)
c) from (1) and (2):
n² h² / (4π² m² R²) = K Z e² / (m R)
=> R = n² h² / (4π² m K e² Z) --- (3)
= n² * 6.626² * 10⁻⁶⁸ / [ 4π² * 9.1 * 10⁻³¹ * 9* 10⁹ * 1.6² * 10⁻³⁸ * Z ]
= 0.529 * n² / Z °A
= 0.529 * 4² / 2 °A
= 4.232 °A
==========
We can also calculate other physical quantities as follows:
d) Linear Speed of electron (in the circular orbit) by substituting for R
=> v = (2 π K e² Z) / (n h)
e) Potential energy of the electron:
We ignore gravitational potential energy here.
PE = - K * Z * e * e / R = - K Z e² / R --- (4)
= - [4 π² m K² Z² e⁴ ] / (n² h²)
f) Kinetic energy of electron:
=> 1/2 * m * v² = (π m * R e² Z ) / (n h)
= [ 2 π² K² Z² e⁴ m ] / (n² h²) = - P.E / 2
click on red heart thanks above pls
thanks for selecting brainliest ans. nice of you
Similar questions
English,
8 months ago
Math,
8 months ago
Physics,
1 year ago
Psychology,
1 year ago
History,
1 year ago