A genetic experiment involving peas yielded one sample of offspring consisting of 448 green peas and...

HW8#11 A genetic experiment involving peas yielded one sample of offspring consisting of 448 green peas...

HW8#11 A genetic experiment involving peas yielded one sample of offspring consisting of 448 green peas and 174 yellow peas. Use a 0.01 significance level to test the claim that under the same​ circumstances, 27% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution. A. what...

A genetic experiment involving peas yielded one sample of offspring consisting of 441 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 441 green peas and 176 yellow peas. Use a 0.01 significance level to test the claim that under the same​ circumstances, 27​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution. A. What are...

A genetic experiment involving peas yielded one sample of offspring consisting of 405 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 405 green peas and 156 yellow peas. Use a 0.05 significance level to test the claim that under the same​ circumstances, 27​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution. A. What are...

A genetic experiment involving peas yielded one sample of offspring consisting of 413 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 413 green peas and 163 yellow peas. Use a 0.05 significance level to test the claim that under the same​ circumstances, 26​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution. A. What are...

A genetic experiment involving peas yielded one sample of offspring consisting of 442 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 442 green peas and 123 yellow peas. Use a 0.01 significance level to test the claim that under the same​ circumstances, 26​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution

A genetic experiment involving peas yielded one sample of offspring consisting of 404 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 404 green peas and 142 yellow peas. Use a 0.01 significance level to test the claim that under the same​ circumstances, 27​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution.

A genetic experiment involving peas yielded one sample of offspring consisting of 426 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 426 green peas and 164 yellow peas. Use a 0.05 significance level to test the claim that under the same​ circumstances, 24​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution.

A genetic experiment involving peas yielded one sample of offspring consisting of 417 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 417 green peas and 158 yellow peas. Use a 0.05 significance level to test the claim that under the same​ circumstances, ​23% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution.

A genetic experiment involving peas yielded one sample of offspring consisting of 437 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 437 green peas and 174 yellow peas. Use a 0.01 significance level to test the claim that under the same​ circumstances, 23​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution.

A genetic experiment involving peas yielded one sample of offspring consisting of 437 green peas and...

A genetic experiment involving peas yielded one sample of offspring consisting of 437 green peas and 121 yellow peas. Use a 0.01 significance level to test the claim that under the same​ circumstances, 24​% of offspring peas will be yellow. Identify the null​ hypothesis, alternative​ hypothesis, test​ statistic, P-value, conclusion about the null​ hypothesis, and final conclusion that addresses the original claim. Use the​ P-value method and the normal distribution as an approximation to the binomial distribution.