A hydrogen like atom of atomic number z
The next system we study is a very useful one, an electron bound to an orbit around a nucleus.
Learn from their 1-to-1 discussion with Filo tutors. Total classes on Filo by this tutor - 1, Teaches : Physics, Mathematics, English. Teaches : Physics, Biology, Organic Chemistry. Views: 5, Views: 6, Connect with our Physics tutors online and get step by step solution of this question.
A hydrogen like atom of atomic number z
A hydrogen like atom of atomic number Z is in an excited state of quantum number 2 n. It can emit a photon of maximum energy e V. If it makes a transition to quantum state n , a photon of energy The value of n will be. Byju's Answer. Open in App. A hydrogen like atom of atomic number Z is in an excited state of quantum number 2n. It can emit a maximum energy photon of eV. It makes a transition to quantum state n, a photon of energy Then n and Z for this atom will be Ground state energy of hydrogen atom is — A Hydrogen like atom of atomic number Z is in an excited state 2n. If it makes a transition to quantum state n, a photon of energy
Question 2 Medium. Views: 5, Filo tutor solutions 2 Learn from their 1-to-1 discussion with Filo tutors.
A hydrogen like atom atomic number Z is in a higher excited satte of quantum number n. This excited atom can make a transition to the first excited state by succesively emitting two photon of energies Alternatively, the atom from the same excited state can make a transition to the second excited state by successively emitting twio photon of energy 4. This excited atom can make a transition to first excited state by successively emitting two photons of energies Alternatively, the atom from the same excited state can make a transition to second excited state by successively emitting two phons of energy 4.
Byju's Answer. Consider a hydrogen-like ionized atom with atomic number Z with a single electron. The ionization energy of the hydrogen atom is The value of Z is. Open in App. A hydrogen like atom of atomic number Z is in an excited state of quantum number 2n. It can emit a maximum energy photon of eV. It makes a transition to quantum state n, a photon of energy Then n and Z for this atom will be Ground state energy of hydrogen atom is —
A hydrogen like atom of atomic number z
A hydrogen like atom of atomic number Z is in an excited state of quantum number 2 n. It can emit a photon of maximum energy e V. If it makes a transition to quantum state n , a photon of energy The value of n will be.
Happy sharad purnima 2022
Invite sent! A hydrogen-like atom is in a higher excited state of quantum number n. Reservation Criteria. Find Z. A hydrogen like atom atomic number Z is in a higher excited state of quantum number 'n' this excited atom can make a transition to the first excited state by emitting a photon of first Question 4 Hard. A hydrogen like atom atomic number Z is in a higher excited satte of quantum number n. A hypothetical element composed only of neutrons has also been proposed and would have atomic number 0, [8] but has never been observed. Application Form. Dmitri Mendeleev claimed that he arranged his first periodic tables first published on March 6, in order of atomic weight "Atomgewicht". Not to be confused with Atomic mass , Mass number , or Atomic weight.
The hydrogen atom, consisting of an electron and a proton, is a two-particle system, and the internal motion of two particles around their center of mass is equivalent to the motion of a single particle with a reduced mass.
Text solution:1 Video solution: 2. JEE Main Syllabus. High dosage tutoring from Dedicated 3 experts. Create you account for free. If it makes a transition to quantum state n, a photon of energy Text Solution. Correct answer is ''. One destination to cover all your homework and assignment needs. Chemistry: Principles and P It can emit a maximum energy photon of eV. A hydrogen like atom atomic number Z is in a higher excited state of If it makes a transition ot quantum state n, a photon of energy Signup now for free. Difference Between. The time period of the electron in the initial state is twenty seven times that in the final state.
In my opinion, it is an interesting question, I will take part in discussion. Together we can come to a right answer. I am assured.
Very valuable idea