(a) What terms and levels arise from the following configurations? 1s2p 2p3p 3p3d If Hund’s rule...

In terms of atomic physics. What does the term 'selection rule' mean, and why do some...

In terms of atomic physics. What does the term 'selection rule' mean, and why do some weak spectral lines arise from transitions that violate selection rules?

Consider an atom whose electronic configuration is 3d2 . (a) What are the possible terms and...

Consider an atom whose electronic configuration is 3d2 . (a) What are the possible terms and levels, ignoring the Pauli principle? (b) What are terms and levels from (a) that are allowed if Pauli principle is taken into account? (c) What are the lowest energy term and the lowest energy level? (d) Write down the complete electronic wavefunction (angular and spin parts only) for the state in (b) with the largest L, J, and MJ .

The following terms arise from a d8 electron configuration: 1S, 1D, 1G, 3P, 3F Use the...

The following terms arise from a d8 electron configuration: 1S, 1D, 1G, 3P, 3F Use the first two of Hund's rules to properly order these terms according to energy. Then, determine the term symbols arising from each term, and use the third Hund's rule to complete the energy ordering.

Consider the first three energy levels of hydrogen (n = 1, 2, 3). a) What photon...

Consider the first three energy levels of hydrogen (n = 1, 2, 3). a) What photon energies can be observed from transitions between these levels? Label these in increasing order as E1, E2, and E3. b) A hydrogen atom which is initially in the n = 2 level collides with an aluminum atom in its ground state (the kinetic energy of the collision is nearly zero). The hydrogen can drop to the n = 1 level and ionize the aluminum...

Consider an electron bound in a three dimensional simple harmonic oscillator potential in the n=1 state....

Consider an electron bound in a three dimensional simple harmonic oscillator potential in the n=1 state. Recall that the e- has spin 1/2 and that the n=1 level of the oscillator has l =1. Thus, there are six states {|n=1, l=1, ml, ms} with ml= +1, 0, -1 and ms = +/- 1/2. - Using these states as a basis find the six states with definite j and mj where J = L +s - What are the energy levels...

A. Consider a hydrogen atom with one electron and quantized energy levels. The lowest energy level...

A. Consider a hydrogen atom with one electron and quantized energy levels. The lowest energy level (n = 1) is the ground state, with energy -13.6 eV. There are four states corresponding to the next lowest energy (n = 2), each with energy-3.4 eV. For the questions below, consider one of these four states, called one of the first excited states. 2. Assume that this hydrogen atom is present in a gas at room temperature (T ~ 300 K, kBT...

Module 4: Dispersion of Pollutants 1. Most equations for predicting plume rise contain two terms that...

Module 4: Dispersion of Pollutants 1. Most equations for predicting plume rise contain two terms that account for different physical reasons for the rise. What is the nature of these two terms? 2. Is it justifiable to use a constant value for the effective plume rise for a given situation, or should one in reality, adjust for the distance downwind from the stack? Discuss. 3. Sulfur dioxide is being emitted in a rural area at a rate of 0.90 kg/s...

Consider the production function Y = F (K, L) = Ka * L1-a, where 0 <...

Consider the production function Y = F (K, L) = Ka * L1-a, where 0 < α < 1. The national saving rate is s, the labor force grows at a rate n, and capital depreciates at rate δ. (a) Show that F has constant returns to scale. (b) What is the per-worker production function, y = f(k)? (c) Solve for the steady-state level of capital per worker (in terms of the parameters of the model). (d) Solve for the...

Consider the following 2-way ANOVA table. Factor A has 5 levels and factor B has 2...

Consider the following 2-way ANOVA table. Factor A has 5 levels and factor B has 2 levels. ANOVA Source of Variation SS df MS F P-value Factor A (Row factor) 72207.55 4 18051.89 7.770119 0.00003 Factor B (Column factor) 340.3125 1 340.3125 0.146482 0.70308 Interaction (A X B) 1415 4 353.75 0.152265 0.96138 Within 162627.1 70 2323.245 Total 236590 79   Assuming that all the treatment combinations of factors A and B have an equal number of observations, how many observations(replicates)...

In the context of Market Basket Analysis and association rules, consider the following data gathered from...

In the context of Market Basket Analysis and association rules, consider the following data gathered from a preliminary analysis of Market Baskets for four products P, Q, R and S. Out of a total of 12 baskets, 8 contained P, 3 contained Q, 7 contained R and 4 contained S. Further, P and Q together were found in 2 baskets, P and R together in 6 baskets, R and S together in 1 basket, and Q and R together in...