Consider a process that occurs at constant volume.
The initial volume of gas is 2.30 L ,...
Consider a process that occurs at constant volume.
The initial volume of gas is 2.30 L , the
initial temperature of the gas is 26.0 °C ,
and the system is in equilibrium with an external pressure of 1.2
bar (given by the sum of a 1 bar atmospheric pressure and a 0.2 bar
pressure due to a brick that rests on top of the piston). The gas
is heated slowly until the temperature reaches 51.2
°C . Assume the gas behaves ideally, and...
2. Let A = {p, q, r, s}, B = {k, l, m, n}, and C...
2. Let A = {p, q, r, s}, B = {k, l, m, n}, and C = {u, v, w},
Define f : A→B by f(p) = m, f(q) = k, f(r) = l, and f(s) = n, and
define g : B→C by g(k) = v, g(l) = w, g(m) = u, and g(n) = w. Also
define h : A→C by h = g ◦ f. (a) Write out the values of h. (b) Why
is it that...
6.Predict whether the values of q, w
, U and H are positive, zero, or negative...
6.Predict whether the values of q, w
, U and H are positive, zero, or negative for each of the following
processes:
Metling of ice at 1 atm and 273K
Melting of solid cylcohexane at 1 atm and the normal melting
point
Reversible isothermal expansion of an ideal gas
Reversible adiabatic expansion of an ideal gas
For most substances, the volume
increases upon melting, but for the ice melting to water under the
given conditions, the volume decreases. In all...
Consider the Cobb-Douglas utility function
u(x1,x2)=x1^(a)x2^(1-a).
a. Find the Hicksian demand correspondence h(p, u) and the...
Consider the Cobb-Douglas utility function
u(x1,x2)=x1^(a)x2^(1-a).
a. Find the Hicksian demand correspondence h(p, u) and the
expenditure function e(p,u) using the optimality conditions for the
EMP.
b. Derive the indirect utility function from the expenditure
function using the relationship e(p,v(p,w)) =w.
c. Derive the Walrasian demand correspondence from the Hicksian
demand correspondence and the indirect utility function using the
relationship
x(p,w)=h(p,v(p,w)).
d. vertify roy's identity.
e. find the substitution matrix and the slutsky matrix, and
vertify the slutsky equation.
f....
Let S = {A, B, C, D, E, F, G, H, I, J} be the set...
Let S = {A, B, C, D, E, F, G, H, I, J} be the set consisting of
the following elements:
A = N, B = 2N , C = 2P(N) , D = [0, 1), E = ∅, F = Z × Z, G = {x
∈ N|x 2 + x < 2}, H = { 2 n 3 k |n, k ∈ N}, I = R \ Q, J =
R.
Consider the relation ∼ on S given...
Let u, v, and w be vectors in Rn. Determine which of the
following statements are...
Let u, v, and w be vectors in Rn. Determine which of the
following statements are always true. (i) If ||u|| = 4, ||v|| = 5,
and ?||u + v|| = 8, then u?·?v = 4. (ii) If ||u|| = 2 and ||v|| =
3, ?then |u?·?v| ? 5. (iii) The expression (v?·?w)u is both
meaningful and defined. (A) (ii) and (iii) only (B) (ii) only (C)
none of them (D) all of them (E) (i) only (F) (i) and...
Calculate the w, q, delta U, delta H, delta S system of heating
2.4 L of...
Calculate the w, q, delta U, delta H, delta S system of heating
2.4 L of methanol from 20 C to 85 C b) what would be the delta S
surroundings and Delta G of the reversible condensation of
methanol? is the condensation of methanol at 37 C a spontaneous
process? please show formulas and tell me why youre using them
because I'm lost