Write the Hamiltonian for the 2 and H molecules and explain/label each term. What terms differ...
1. Give the Schrodinger equation for free electrons. Explain all terms: Hamiltonian, potential. 2. Solve the Schrodinger equation and find the wavefunction and the energy. 3. Draw the energy dispersion.
Explain the difference between the terms equivalence point and endpoint. Do not simply define each term, explain what makes them different as well.
Simple molecular orbital theory for the ethylene molecule. (a) (5 points) Write down a Hamiltonian matrix for the pi electrons of ethylene, using a 2p basis function on each C atom, and assuming that the matrix elements of the Hamiltonian are α for on-site interaction you a 2 by 2 matrix - it is known as the Huckel Hamiltonian s, and B for the interactions between nearest neighbors This should give (b) (10 points) Write down the secular equation for...
Write an expression with two terms. One term should have a coefficient with a variable and the other term should be a constant. Name the coefficient, the variable, and the constant in the expression. Then write a word phrase for your expression. 10 Mario says that the expression 4 + 3nhas four terms: 4,3, n, and 2. Is he correct? Explain.
For the Hamiltonian syste m we did in class: 2. 3 Ic (1) Show that it's a Hamiltonian system with a Hamiltonian function (2) Show that for each c > 0, {(z,y) є R2 . H(z,y) c} is a bounded invariant set of the dynamical system (in fact, it's also closed) (3) Find all the equilibria of this system. Show that H-() is made up of one equilibium point and two homoclinic orbits attached to it. (4) Sketch the invariant...
1. Consider an ensemble of systems each made up of a large number of magnetic moments that are equal in magnitude. You apply a magnetic field of intensity H to the system on your laboratory bench. Each of the j magnetic moments in your laboratory system becomes oriented with respect to this magnetic field. The angle of orientation is vi for the jth magnetic moment of the oth system. Then the energy (Hamiltonian) of the jth magnetic moment in the...
Indicate whether each of the following molecules R, S, Z or E. Label the substituents according to priority. The third molecule is a Fischer projection. Cl H2C SH H CH3 CH3 Label each pair of molecules as enantiomers, diasteromers, identical molecules constitutional isomers, or not isomers at all. No partial credit. H3C SH CH3 CH(CH3)2 H3C CH2CH2F CH(CH3)2 H3C CH2CH3 and H CH3 and H SH Cl HOH OH and CH3
6 The Fermionic Oscillator Suppose that we constructed a harmonic oscillator Hamiltonian H in terms of raising and lowering operators a+,a in the usual way, such that but now whereaa obey the anticommutation relationn (Be careful! The a+,a are operators, rather than numbers.) (a) Suppose I give you a wavefunction that solves the time-independent Schrödinger equation, i.e. such that HUn-EUn-hw (n + ) ψη. Is a+Un also a solution to the time-independent Schrödinger equation If so, what is its energy...
2. (12 marks) Shown below are structural diagrams for six pairs of molecules. From the list of four terms given below, choose the single term that best describes each pair and write it on the line below the pair of structures. Note that a term may be used more than once if necessary . 2. (12 marks) Shown below are structural diagrams for six pairs of molecules. From the list of four terms given below, choose the single term that...
2. Label each of the following pairs of molecules as enantiomers, diastereomers, meso compounds, or constitutional isomers. Some terms may be used more than once, and some terms may not be used at all. The use of the model kit is GREATLY encouraged for this question (5 points). CH3 ОН ОН \ 'NTOH о он Нонно- нон н он / он но CH3 H3G ног он гун, 3 H3CCH3 HONH2 - тр H2N " он он сна он он NH2