In a canonical set, find the expression of dispersion, indicated by the number of particles in...

Find the absolute extrema of the given function on the indicated closed and bounded set R....

Find the absolute extrema of the given function on the indicated closed and bounded set R. (Order your answers from smallest to largest x, then from smallest to largest y.) f(x, y) = x2 + y2 − 2y + 1  on  R = {(x, y)|x2 + y2 ≤ 81}

Find the absolute extrema of the given function on the indicated closed and bounded set R....

Find the absolute extrema of the given function on the indicated closed and bounded set R. (Order your answers from smallest to largest x, then from smallest to largest y.) f(x, y) = x3 − 9xy − y3  on  R = {(x, y): −4 ≤ x ≤ 4, −4 ≤ y ≤ 4}

Show a regular expression representing the described set: a). The set of strings of odd length...

Show a regular expression representing the described set: a). The set of strings of odd length over {s,t,r,i,n,g} containing exactly 3 n's.

derive the average number of particles, N, from the thermodynamic identity d(theta) = -SdT-PdV-Nd(my) where the...

derive the average number of particles, N, from the thermodynamic identity d(theta) = -SdT-PdV-Nd(my) where the grand canonical potential (theta) follows as (kb is the boltzmann constant) (theta) = -kbln(Z) where Z ist the grand partitiom function

So if we can find a number r satisfying r2=b2−4ac, then we can solve for z...

So if we can find a number r satisfying r2=b2−4ac, then we can solve for z in terms of a,b,c and r as z=−b2a±r2a. Hopefully you can recognize the usual quadratic formula here. If b2−4ac is a positive real number, we usually just replace r with b2−4ac−−−−−−−√. However if b2−4ac is a negative real number, or in fact a general complex number---which will happen if a,b and c are complex numbers---then there is no canonical b2−4ac−−−−−−−√, but we could still...

The quantum state of a particle can be specified by giving a complete set of quantum...

The quantum state of a particle can be specified by giving a complete set of quantum numbers (n,l, ml,ms). How many different quantum states are possible if the principal quantum number is n = 2? To find the total number of allowed states, first write down the allowed orbital quantum numbers l, and then write down the number of allowed values of ml for each orbital quantum number. Sum these quantities, and then multiply by 2 to account for the...

Part C The quantum state of a particle can be specified by giving a complete set...

Part C The quantum state of a particle can be specified by giving a complete set of quantum numbers (n,l, ml,ms). How many different quantum states are possible if the principal quantum number is n = 2? To find the total number of allowed states, first write down the allowed orbital quantum numbers l, and then write down the number of allowed values of ml for each orbital quantum number. Sum these quantities, and then multiply by 2 to account...

(a) Give an expression for the Coulomb force between two charged particles, defining all terms. (b)...

(a) Give an expression for the Coulomb force between two charged particles, defining all terms. (b) Charge q2 initially lies a distance r to the right of q1. The Coulomb force on charge q2 is F. Where must q2 be moved so that the force on q1 is now twice as strong and in the opposite direction (i.e. F' = −2F)?

write a single set of quantum number for 3p orbital

write a single set of quantum number for 3p orbital

Point out every mistake with the following set of quantum numbers for an electron in a...

Point out every mistake with the following set of quantum numbers for an electron in a hydrogen atom, and then write a new, valid set of quantum numbers with the magnetic value, and find the energy of that electron for the new quantum numbers you picked using -13.6 eV for the hydrogen ground-state energy: (0,1,-2,-3)