Find the energy required to excite 1.10 ...

Find the energy required to excite `1.10` L of hydrogen gas at `1.0` `Nm^(-2)` and `298`K to the first excited state of atomic hydrogen. The energy required for the dissociation of `H-H` bond is `436 kJ mol^(-1)`. Also calculate the minimum frequency of a photon to break this bond.

Text Solution

Verified by Experts

The correct Answer is:

`10.93xx10^(14)"sec"^(-1)`

Topper's Solved these Questions

ATOMIC STRUCTURE
FIITJEE|Exercise ASSIGNMENT PROBLEMS (OBJECTIVE) LEVEL-I|50 Videos
ATOMIC STRUCTURE
FIITJEE|Exercise ASSIGNMENT PROBLEMS (OBJECTIVE) LEVEL-I REASONING TYPE QUESTIONS|3 Videos
ATOMIC STRUCTURE
FIITJEE|Exercise ASSIGNMENT PROBLEMS (SUBJECTIVE) LEVEL-I|10 Videos
ALKYL AND ARYL HALIDES
FIITJEE|Exercise NUMERICAL BASED QUESTIONS|1 Videos
CARBOHYDRATES, AMINO ACIDS, POLYMERS AND PRACTICAL ORGANIC CHEMISTRY
FIITJEE|Exercise EXERCISE|4 Videos

Similar Questions

Explore conceptually related problems

Find the energy required to excite 1.10L od hydrogen gas at 1.0 nm and 298 K to the first excited state of atomic hydrogen .The energy required for the dissacitation of H-H bond is 436 kJ mol^(-1) .Also calculate the minimum frequency of a photon to break this bond

Calculate the energy required to excited one litre of hydrogen gas at 1 atm and 298 K to the excited state of atomic hydrogen. The energy for the disociation of H-H bond is 436 kJ mol^(-1) . Also calculate the minimum frequency of photon to break this bond.

Calculated the energy required to excite one litre of hydrogen gas at 1atm and 298K to the first excited state of atomic hydorgen. The enegry for the dissociation of H-H bond is 436 kJ mol^(-1) .

Bond energy of F_2 is 150 kJ mol^(-1) . Calculate the minimum frequency of photon to break this bond.

Calculate the energy required to excite two line of hydrogen gas at 1 atm and 298K to the first excited state of atomic hydrogen .The energy fior the disociation of H_(2) bond of photon to break this bond

Calculate the energy (in KJ) required to excite one litre of hydrogen gas at 1 atm and 298 K to the first excited state of atomic hydrogen. The energy for the dissociation of H-H id 436 KJ mol^(-1) . Give your answer excluding decimal places.

The energy required to excite an electron from the ground state of hydrogen atom to the first excited state, is

the energy required to excite an electron in hydrogen atom to its first excited state is

A hydrogen-like atom in its first excited state has excitation energy of 91.8 eV. The energy required to remove the electron from its ion is:

FIITJEE-ATOMIC STRUCTURE-ASSIGNMENT PROBLEMS (SUBJECTIVE) LEVEL II

The minimum energy necessary of overcome the attractive force between ...
Text Solution
|
The photo electric emissioin requires a threshold frequency v(0). For ...
Text Solution
|
The IP of H is 13.6 eV. It is exposed to electromagnetic waves of 1028...
Text Solution
|
O(2) undergoes photochemical dissociation into one normal oxygen a...
Text Solution
|
A particle known as mu meson has a charge equal to that of no electron...
Text Solution
|
A certain dye absorbs light of lamda=4530Å and then fluorescence light...
Text Solution
|
Find the energy required to excite 1.10 L of hydrogen gas at 1.0 Nm^(-...
Text Solution
|
The angular momentum of an electron in a particular orbit of Li^(2+) i...
Text Solution
|
An electron in a hydrogen like atom is in an excited state . It has a ...
Text Solution
|
An electron has a total energy of 2 MeV. Calculate the effective mass ...
Text Solution
|
An electron beam can undergo defraction by crystals .Through what pot...
Text Solution
|
The wavelength of photoelectric threshold energy of a metal is 230 nm....
Text Solution
|
A microscope using suitable photons is employed to locate an electron ...
Text Solution
|
Calculate the accelerating potential that must be imparted to a photon...
Text Solution
|