185095 In a population of 800 rabbits showing HardyWeinberg equilibrium, the frequency of recessive individuals was 0.16 . What is the frequency of heterozygous individuals?

185097 Match the phenomenon listed under column I with those listed under column II. Select the correct answer from the options given.
| | Column I | | Column II |
| :---: | :---: | :---: | :---: |
| A | Warburg effect | p | Change in gene frequency by chance |
| B | Pasteur effect | q | Postponing severance in the leaves by applying cytokinin |
| C | Emerson effect | $\mathbf{r}$ | Decline in the consumption of respiratory substrate due to a change from anaerobic to aerobic respiration |
| D | Wright effect | s | Inhibitory effect of $\mathrm{O}_2$ on photosynthesis |
| | | t | Enhancement of photosynthesis by subjecting chlorophyll to the effect of two different wavelengths of light |

185103 Which of the following defines Hardy Weinberg's law?

185106 Frequency of an autosomal lethal gene is 0.4 . The frequency of carrier in a population or 200 individual is:

185109 A population is in Hardy-Weinberg equilibrium for a gene with only two alleles. If the gene frequency of an allele ' \(A\) ' is 0.7 , genotype frequency of ' \(\mathrm{Aa}\) ' is:

185095 In a population of 800 rabbits showing HardyWeinberg equilibrium, the frequency of recessive individuals was 0.16 . What is the frequency of heterozygous individuals?

185097 Match the phenomenon listed under column I with those listed under column II. Select the correct answer from the options given.
| | Column I | | Column II |
| :---: | :---: | :---: | :---: |
| A | Warburg effect | p | Change in gene frequency by chance |
| B | Pasteur effect | q | Postponing severance in the leaves by applying cytokinin |
| C | Emerson effect | $\mathbf{r}$ | Decline in the consumption of respiratory substrate due to a change from anaerobic to aerobic respiration |
| D | Wright effect | s | Inhibitory effect of $\mathrm{O}_2$ on photosynthesis |
| | | t | Enhancement of photosynthesis by subjecting chlorophyll to the effect of two different wavelengths of light |

185103 Which of the following defines Hardy Weinberg's law?

185106 Frequency of an autosomal lethal gene is 0.4 . The frequency of carrier in a population or 200 individual is:

185109 A population is in Hardy-Weinberg equilibrium for a gene with only two alleles. If the gene frequency of an allele ' \(A\) ' is 0.7 , genotype frequency of ' \(\mathrm{Aa}\) ' is:

185095 In a population of 800 rabbits showing HardyWeinberg equilibrium, the frequency of recessive individuals was 0.16 . What is the frequency of heterozygous individuals?

185097 Match the phenomenon listed under column I with those listed under column II. Select the correct answer from the options given.
| | Column I | | Column II |
| :---: | :---: | :---: | :---: |
| A | Warburg effect | p | Change in gene frequency by chance |
| B | Pasteur effect | q | Postponing severance in the leaves by applying cytokinin |
| C | Emerson effect | $\mathbf{r}$ | Decline in the consumption of respiratory substrate due to a change from anaerobic to aerobic respiration |
| D | Wright effect | s | Inhibitory effect of $\mathrm{O}_2$ on photosynthesis |
| | | t | Enhancement of photosynthesis by subjecting chlorophyll to the effect of two different wavelengths of light |

185103 Which of the following defines Hardy Weinberg's law?

185106 Frequency of an autosomal lethal gene is 0.4 . The frequency of carrier in a population or 200 individual is:

185109 A population is in Hardy-Weinberg equilibrium for a gene with only two alleles. If the gene frequency of an allele ' \(A\) ' is 0.7 , genotype frequency of ' \(\mathrm{Aa}\) ' is:

185095 In a population of 800 rabbits showing HardyWeinberg equilibrium, the frequency of recessive individuals was 0.16 . What is the frequency of heterozygous individuals?

185097 Match the phenomenon listed under column I with those listed under column II. Select the correct answer from the options given.
| | Column I | | Column II |
| :---: | :---: | :---: | :---: |
| A | Warburg effect | p | Change in gene frequency by chance |
| B | Pasteur effect | q | Postponing severance in the leaves by applying cytokinin |
| C | Emerson effect | $\mathbf{r}$ | Decline in the consumption of respiratory substrate due to a change from anaerobic to aerobic respiration |
| D | Wright effect | s | Inhibitory effect of $\mathrm{O}_2$ on photosynthesis |
| | | t | Enhancement of photosynthesis by subjecting chlorophyll to the effect of two different wavelengths of light |

185103 Which of the following defines Hardy Weinberg's law?

185106 Frequency of an autosomal lethal gene is 0.4 . The frequency of carrier in a population or 200 individual is:

185109 A population is in Hardy-Weinberg equilibrium for a gene with only two alleles. If the gene frequency of an allele ' \(A\) ' is 0.7 , genotype frequency of ' \(\mathrm{Aa}\) ' is:

185095 In a population of 800 rabbits showing HardyWeinberg equilibrium, the frequency of recessive individuals was 0.16 . What is the frequency of heterozygous individuals?

185097 Match the phenomenon listed under column I with those listed under column II. Select the correct answer from the options given.
| | Column I | | Column II |
| :---: | :---: | :---: | :---: |
| A | Warburg effect | p | Change in gene frequency by chance |
| B | Pasteur effect | q | Postponing severance in the leaves by applying cytokinin |
| C | Emerson effect | $\mathbf{r}$ | Decline in the consumption of respiratory substrate due to a change from anaerobic to aerobic respiration |
| D | Wright effect | s | Inhibitory effect of $\mathrm{O}_2$ on photosynthesis |
| | | t | Enhancement of photosynthesis by subjecting chlorophyll to the effect of two different wavelengths of light |

185103 Which of the following defines Hardy Weinberg's law?

185106 Frequency of an autosomal lethal gene is 0.4 . The frequency of carrier in a population or 200 individual is:

185109 A population is in Hardy-Weinberg equilibrium for a gene with only two alleles. If the gene frequency of an allele ' \(A\) ' is 0.7 , genotype frequency of ' \(\mathrm{Aa}\) ' is: