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Let a sequence of random variables Un converge in probability to c and the sequence of...
Let a sequence of random variables Un converge in probability to c and the sequence of random variables Vn converge in distribution to d. Show that Un+Vn converges in probability c + d.
14. Within the sequence of cytochrome c, the paper found hot and cold spots. Hot spots...
14. Within the sequence of cytochrome c, the paper found hot and cold spots. Hot spots were areas that have mutated multiple times while cold spots the sequence was generally unchanged from the common ancestor of yeast and mammals. Cold spots most likely indicate what? What do hot spots indicate? | I
Stream Type T. (°C) T(°C) CP (kW/°C) 1 ATmin= 10 1 2 3 Hot Hot Cold...
Stream Type T. (°C) T(°C) CP (kW/°C) 1 ATmin= 10 1 2 3 Hot Hot Cold Cold 180 130 60 30 80 40 100 1 20 4 1.8 1. Develop a temperature interval diagram 2. Produce a problem table from the temperature interval diagram 3. Using heat cascade, state the pinch point, Hot & cold utility usage 4. What is the minimum number of units a) For max energy recovery b) Energy relaxation across pinch 5. Design a HEX network...
Take Un = 1 +7 + ... + + and vn = Un + olm. We...
Take Un = 1 +7 + ... + + and vn = Un + olm. We know that if Un is increasing, un is de- creasing, Un < Un for all n, and lim (un – Un) = 0, then both sequences converge to the same limit. n-> Prove that lim + oun is not a rational number. n Hint: call l the limit and assume that I = . with p, q integers. Explain why q!•q.ug <l•q!:q < q!.q.vg...
I included a picture of what the union of set Un represents Problem C. Define a...
I included a picture of what the union of set Un
represents
Problem C. Define a function f:R CX by the formula f(x) = cos(272) + i sin(2x). (a) Verify that f is a homomorphism from (R, +) to (CX,.). (b) Find im(f) and ker(f). (c) Check that f(Q) = {f(x): 2 € Q} coincides with the group UN-, UN ů {ze C]z* = 1} n = 1
Hot air enters a heat exchanger at 350°C and exits at (149°C. The heat extracted is...
Hot air enters a heat exchanger at 350°C and exits at (149°C. The heat extracted is used to boil (0.263) kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2°C). Assume a constant specific heat for air of Cp = 1.005 kJ/(kgC). The pressure of the hot air and the boiling water is P =...
for $ | Show that the solutions un(x, t) defined in n (Un)t = k(un)11, Un(1,0)...
for $ | Show that the solutions un(x, t) defined in n (Un)t = k(un)11, Un(1,0) = n(2), fn(x) = { 0 converge to the fundamental solution S(,t), as n +0. [10pt] VIA -15-16 2 Solve the initial-value problem Ut – kurr + y = 0, (2,0) = f(x). Hint: Set v(x, t) = ertu(2,t). Find the equation satisfied by v and solve it. [10pt] State and prove the mean value property for harmonic functions in R3. [20pt]
2) Hot air enters a heat exchanger at 350°C and exits at 153°C. The heat extracted...
2) Hot air enters a heat exchanger at 350°C and exits at 153°C. The heat extracted is used to boil 0.277 kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2). Assume a constant specific heat for air of cp = 1.005 kJ/(kg°C). The pressure of the hot air and the boiling water is P...
= (c) (2pts) Let Sn U1 + U2 + ... + Un be a sum of...
= (c) (2pts) Let Sn U1 + U2 + ... + Un be a sum of independent uniform random variables on [0, 1]. Approximate the probability: P(S1000 > 500|S500 > 255)
2) Hot air enters a heat exchanger at 350°C and exits at 155°C. The heat extracted...
2) Hot air enters a heat exchanger at 350°C and exits at 155°C. The heat extracted is used to boil 0.283 kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m²°C). Assume a constant specific heat for air of Cp = 1.005 kJ/(kg °C). The pressure of the hot air and the boiling water is...
14. Within the sequence of cytochrome c, the paper found hot and cold spots. Hot spots were areas that have mutated multiple times while cold spots the sequence was generally unchanged from the common ancestor of yeast and mammals. Cold spots most likely indicate what? What do hot spots indicate? | I
Stream Type T. (°C) T(°C) CP (kW/°C) 1 ATmin= 10 1 2 3 Hot Hot Cold Cold 180 130 60 30 80 40 100 1 20 4 1.8 1. Develop a temperature interval diagram 2. Produce a problem table from the temperature interval diagram 3. Using heat cascade, state the pinch point, Hot & cold utility usage 4. What is the minimum number of units a) For max energy recovery b) Energy relaxation across pinch 5. Design a HEX network...
Take Un = 1 +7 + ... + + and vn = Un + olm. We know that if Un is increasing, un is de- creasing, Un < Un for all n, and lim (un – Un) = 0, then both sequences converge to the same limit. n-> Prove that lim + oun is not a rational number. n Hint: call l the limit and assume that I = . with p, q integers. Explain why q!•q.ug <l•q!:q < q!.q.vg...
I included a picture of what the union of set Un
represents
Problem C. Define a function f:R CX by the formula f(x) = cos(272) + i sin(2x). (a) Verify that f is a homomorphism from (R, +) to (CX,.). (b) Find im(f) and ker(f). (c) Check that f(Q) = {f(x): 2 € Q} coincides with the group UN-, UN ů {ze C]z* = 1} n = 1
Hot air enters a heat exchanger at 350°C and exits at (149°C. The heat extracted is used to boil (0.263) kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2°C). Assume a constant specific heat for air of Cp = 1.005 kJ/(kgC). The pressure of the hot air and the boiling water is P =...
for $ | Show that the solutions un(x, t) defined in n (Un)t = k(un)11, Un(1,0) = n(2), fn(x) = { 0 converge to the fundamental solution S(,t), as n +0. [10pt] VIA -15-16 2 Solve the initial-value problem Ut – kurr + y = 0, (2,0) = f(x). Hint: Set v(x, t) = ertu(2,t). Find the equation satisfied by v and solve it. [10pt] State and prove the mean value property for harmonic functions in R3. [20pt]
2) Hot air enters a heat exchanger at 350°C and exits at 153°C. The heat extracted is used to boil 0.277 kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m2). Assume a constant specific heat for air of cp = 1.005 kJ/(kg°C). The pressure of the hot air and the boiling water is P...
= (c) (2pts) Let Sn U1 + U2 + ... + Un be a sum of independent uniform random variables on [0, 1]. Approximate the probability: P(S1000 > 500|S500 > 255)
2) Hot air enters a heat exchanger at 350°C and exits at 155°C. The heat extracted is used to boil 0.283 kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m²°C). Assume a constant specific heat for air of Cp = 1.005 kJ/(kg °C). The pressure of the hot air and the boiling water is...
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