Calculate the proportion of F1 hybrid vigor retained at equilibrium for a four-way rotation using purebred A, B, C, and D sires.
Answer
%RHV = (m (2^n-1) -1) / (m (2^n-1)) x 100
n= number of sire types
m = number of breeds present in each sire type
%RHV = (2(2^4-1)-1)/ (2(2^4-1)) x 100
= (29 / 30) X 100
= 96.66%
Calculate the proportion of F1 hybrid vigor retained at equilibrium for a four-way rotation using purebred...
Equations: p + q = 1 p 2 + 2pq + q 2 = 1 Three-way cross [(P1 x P2) x P3] predicted from F1's: 1/2[F1(P1 x P3) + F1(P2 x P3)] Double cross [(P1 x P2) x (P3 x P4)] predicted from F1's: 1/4[F1(P1 x P3) + F1(P1 x P4) + F1(P2 x P3) + F1(P2 x P4)] V p = V A + V E + V D V G = V A + V D V E...
Given four-input Boolean functions, F1 (A,B,C,D) = Σm(4, 5, 10, 11, 12) F2 (A,B,C,D) = Σm(0, 1, 3, 4, 8, 11) F3 (A,B,C,D) = Σm(0, 4, 10, 12, 14) (a) Realize F1, F2 and F3 using a ROM. (b) Realize F1, F2 and F3 using a PLA of minimum size. Show the PLA table and location of switches.
part E According to a study, the proportion of people who are satisfied with the way things are going in their lives is 0.74. Suppose that a random sample of 100 people is obtained Complete Cick here to view the standard norma t ion tabletaget Click here to view the standard normal bon table (page 2 (c) Describe the samping distribution of the proportion of people who are satisfied with the way things are going in their te. Be sure...
The mean gas mileage for a hybrid car is 57 miles per gallon. Suppose that the gasoline mileage is approximately normally distributed with a standard deviation of 35 miles per on What proportion of lyrics pots ver miles per gallon? (b) What proportion of hybrids gets 53 miles per gallon or less (c) What proportion of hybrids gets between 57 and 61 miles per gallon? What is the probably that a randomly selected Hybrid gets less than 45 miles per...
4. Calculate the vertical deflection and rotation at point A of the beam shown using the virtual work method using conventional integration and only bending deformations to find the indicated deflections/ rotations in each structure. E 29,000 ksi. (20pts) 2 klf A 1- 1500 in B 3600 in C 10 ft
Equations: p + q = 1 p 2 + 2pq + q 2 = 1 Three-way cross [(P1 x P2) x P3] predicted from F1's: 1/2[F1(P1 x P3) + F1(P2 x P3)] Double cross [(P1 x P2) x (P3 x P4)] predicted from F1's: 1/4[F1(P1 x P3) + F1(P1 x P4) + F1(P2 x P3) + F1(P2 x P4)] V p = V A + V E + V D V G = V A + V D V E...
Calculate the margin of error and construct a confidence interval for the population proportion using the normal approximation to the p̂ p̂ -distribution (if it is appropriate to do so). Standard Normal Distribution Table a. p̂ =0.85, n=140, α =0.2 p̂ =0.85, n=140, α =0.2 E=E= Round to four decimal places Enter 0 if normal approximation cannot be used < p < < p < Round to four decimal places Enter 0 if normal approximation cannot be used b. p̂ =0.3, n=160, α =0.2 p̂ =0.3, n=160, α =0.2...
Using the reduction potentials given, calculate the equilibrium constant, K, at 20 degrees C for the reaction Using the reduction potentials given, calculate the equilibrium constant, K, at 25°C for the reaction, 33 3+ Ag (aa) t Fe(a)Ag) Fe (aq) +0.77 V +0.80 V A Ag+(aq) + e- ← a. 1.66 b. 6.4 c. 3.2 d. 6.1 x 10-4 e. 1.6 x 104 Rank the following compounds according to increasing solubility in water. K” is a less than sign) 34...
part c 7.3.45-T A population has a proportion equal to 0.25. Calculate the probabilities below with n=100. a. Po 50.28) b. P(p>0.33) C. P(0.21 < 50.33) d. PP 20.19) a. PpS 0.28) = 7558 (Round to four decimal places as needed.) b. P(p>0.33) = .0323 (Round to four decimal places as needed.) C. P(0.21 < 50.33)=0 (Round to four decimal places as needed.)
At equilibrium, the concentrations of reactants and products can be predicted using the equilibrium constant, Kc, which is a mathematical expression based on the chemical equation. For example, in the reaction aA+bB?cC+dD where a, b, c, and d are the stoichiometric coefficients, the equilibrium constant is Kc=[C]c[D]d[A]a[B]b where [A], [B], [C], and [D] are the equilibrium concentrations. If the reaction is not at equilibrium, the quantity can still be calculated, but it is called the reaction quotient, Qc, instead of...