Geneticists examined the distribution of seed coat color in
cultivated amaranth grains, Amaranthus caudatus. Crossing
black-seeded and pale-seeded A. caudatus populations gave the
following counts of black, brown, and pale seeds in the second
generation.
According to genetics laws, dominant epistasis should lead to 12/16 of all such seeds being black, 3/16 brown, and 1/16 pale. We want to test this theory at the 5% significance level. |
| (a) | Find the value of the test statistic. (to 3 decimals) |
| (b) | Find the critical value.(to 3 decimals) |
| (c) |
What is the conclusion? (A) We conclude that the theory is true since the answer in
(a) (B) We conclude that the observed frequencies contradict the
theory (C) We conclude that the observed frequencies contradict the
theory (D) We cannot conclude that the observed
frequencies contradict the theory (E) We cannot conclude that the observed
frequencies contradict the theory (F) We conclude that the theory is true since the answer in
(a) (G) We conclude that the data is consistent with the theory
since |
Geneticists examined the distribution of seed coat color in cultivated amaranth grains, Amaranthus caudatus. Crossing black-seeded...
Options for 1 C.) are below (A-G)
Problem #1: Geneticists examined the distribution of seed coat color in cultivated amaranth grains, Amaranthus caudatus. Crossing black-seeded and pale-seeded A. caudatus populations gave the following counts of black, brown, and pale seeds in the second generation. Seed Coat Color Seed Count black 306 brown 66 pale 27 T | | According to genetics laws, dominant epistasis should lead to 12 of all such seeds being black, ſ brown, and is pale. We...
#6: (a) A genetic model suggests that 80% of plants grown from a cross between two given strains of seeds will be of the dwarf variety. After breeding 204 of these plants, 154 were observed to be of the dwarf variety. Do these data strongly contradict the genetic model? Find the p-value (b) At the 5% significance level, what is the conclusion of the above hypothesis test? #6(a) p-value (correct to 4 decimals) (A) We cannot conclude that the data...
1. At least 3 independently assorting loci are known to govern coat color in mice. The genotype C- will allow pigment to be produced by 2 other genes. The cc genotype does not allow pigment production resulting in albino mice. The striped “agouti” hair pattern depends on the genotype A- and the aa genotype is nonagouti. Finally, the color of the pigment may be black (B-) or brown (bb). Five different coat colors may be produced by the action of...
Data from adoption studies on handedness indicate that the effects of shared biological heritage are more powerful determinants of hand preference than sociocultural factors. Biological offspring were found to show nonrandom distributions of right and non-right handedness as a function of parental handedness. In contrast, the handedness distribution of adopted children as a function of parental handedness was essentially random. The following table gives the handedness of biological offspring as a function of parental handedness. Biological Offspring Parental Handedness (father...
Data from adoption studies on handedness indicate that the
effects of shared biological heritage are more powerful
determinants of hand preference than sociocultural factors.
Biological offspring were found to show nonrandom distributions of
right and non-right handedness as a function of parental
handedness. In contrast, the handedness distribution of adopted
children as a function of parental handedness was essentially
random. The following table gives the handedness of biological
offspring as a function of parental handedness.
Problem #2: Data from adoption...
Problem #1: (a) Suppose that we identify 169 women 50 to 54 years of age who have both a mother and a sister with a history of breast cancer. 17 of these women themselves have developed breast cancer at some time in their lives. If we assume that the proportion of breast cancer cases in women whose mothers have had breast cancer is 8%, does having a sister with the disease increase the risk? Find the p-value. (b) At the...
Problem #1: (a) Suppose that we identify 161 women 50 to 54 years of age who have both a mother and a sister with a history of breast cancer. 16 of these women themselves have developed breast cancer at some time in their lives. If we assume that the proportion of breast cancer cases in women whose mothers have had breast cancer is 8%, does having a sister with the disease increase the risk? Find the p-value. (b) At the...
Is there an association between hair color and body type? The table below shows the results of a researcher's observations of randomly selected people. Frequencies of Hair Colors for Various Body Types Blonde Brunette Red Head Short and Slender 89 85 53 Short and Pudgy 70 90 69 Tall and Slender 51 117 62 Tall and Heavy 60 96 63 R vector Data: 89,70,51,60,85,90,117,96,53,69,62,63 Contigency Table What can be concluded at the αα = 0.01 significance level? What is the...
a.) Are the conditions for running this test stratified?
- Yes, all observed counts are bigger than 5.
- Yes, the mean number of counts is bigger than 10.
- Yes, the total number of rolls is bigger than 10.
- Yes, all expeced counts are bigger than 10.
b.) State the null hypothesis.
- The data fit the distribution for a fair six-sided die.
- The data do not fit the distribution for fair six-sided
die.
c.) What are...
number 8 and 9 please with explanation
A biologist documents the color patterns of the tiger beetle (Cicindela fulgida) during spring and summer. Beetles can be toxic to birds. Beetles are red with yellow stripes. The red background can be dull (almost brown) or bright (crimson red). The biologist predicts more bright beetles in spring than in summer; the bright color contrasts better with the brown stem! than with green leaves. https://docs.google.com/document/u/1/d/106NDMISZIXT-AORKDFH2nmu-4PPIOCBboO015/mobilebasic 3/3/20, 9:4 Page JOUD eilisnis der 6. Which...