1. Show that Bohr quantization condition for angular momentum 1=mur = nh Is the same as...
1. Show that Bohr' quantization condition for angular momentum 1 = mur = n? is the same as 2* TT *s= n* i 2. Use uncertain principle ApAr = h /( 2*TT) To show that Minimum radius of Bohr's H-atom with n = 1 4TTE K- rn = n² me2 Hint: express Total energy as a function of r, find the condition for E is minimum. 3. Show that E = (-1/2)* k*e^2/r for H-atom Derive the energy expression as...
4. Draw the space quantization diagram of angular momentum for I 3. a. What is the orbital angular momentum vector, |4, in terms of h b. what are the angles with respect to the z axis for the m,-1, m.-2, and mi-3 cases?
H-like atom: Bohr's model part 1 You carry out a theoretical work on absorption of alpha rays, passing on to a study of the structure of atoms on the basis of Rutherford's discovery of the atomic nucleus. By introducing conceptions borrowed from Quantum Theory established by Planck, you succeeded in working out and presenting a picture of atomic structure that, with later improvements, still fitly serves as an elucidation of the physical & chemical properties of the elements. You started...
1 Semiquantitative Results Using Semiclassical Quantization In this problem, you will analyze the consequences of the de Broglie relations (i.e., Bohr-Sommerfeld quantization) on the motion of particles in the same potential as in Problem 3 of Problem Set #3, V(r) = v. ()°. (1) 1.1 Classical orbits Using F = mã, show that for a classical orbit in the potential (1), pº = mav (r), and that the total energy of the particle is E = + V(r) = (;?(r)....
(a )Calculate the magnitude (in J·s) of the angular momentum for an ℓ = 2 electron. (b) What is the ratio of this value to the value Bohr proposed for the n = 2 state?
Consider a single electron Bohr atom in the n=12 state. a) find the orbital electron’s angular momentum. b) find the total energy of the atom
please Solve part D and E!!!!! PLEASE AND THANK YOU acc1 Our discussion of the Bohr model of the hydrogen atom was non-relativistic throughout, which was justified because the velocity of the electron in the nth state of Bohr's hydrogen atom was v= (1) 1377 where a = 1 is the fine-structure constant, and qe is the electron charge, ħ is (the reduced) Planck's constant, and c is the speed of light. Clearly, as n grows, the speed does become...
Problem 1. (20 points) Consider two electrons, each with spin angular momentum s,-1/2 and orbital angular momentum ,-1. (a) (3 points) What are the possible values of the quantum number L for the total orbital angular momentum L-L+L,? (b) ( 2 points) What are the possible values of the quantum number S for the total spin angular momentum S-S,+S, (c) Points) Using the results from (a) and (b), find the possible quantum number J for the total angular momentum J-L+S....
1. Given that angular momentum is given by L=(r)(p), the components of the angular momentum can be found to be: Lx=ypz-zpy Ly=zpx-xpz Lz=xpy-ypx (a) What are the corresponding angular momentum operators Lx, Ly, and Lz? (b) write communation relations [Lx, Ly], [Ly, Lz], and [Lz, Lx]. What does these expressions say about the ability to measure components of angular momentum simultaneously? plz explain part B in depth dont do derivation of commutation relation explain the second part also do part...