Yes, the given statement is correct.
When the two traits from each of the parent are inherited, the dominant trait always demonstrates its characteristic even if there is a presence of a recessive trait.
The dominant and recessive terms illustrate the patterns of inheritance of some kinds of traits. For a recessive allele to generate a recessive phenotype, the individual must exhibit two copies, that is, one from each parent. An individual with one recessive and one dominant allele for a gene will exhibit the dominant phenotype.
Answer:
<em>During photosynthesis, plants produce glucose from simple inorganic molecules - carbon dioxide and water - using light.</em>
<u><em>Explanation:</em></u>
<em>process by which plants turn water, sunlight, and carbon dioxide into water, oxygen, and simple sugars.</em>
<span>a cone formed around a volcanic vent by fragments of lava thrown out during eruptions.</span>
Answer:
Uh not seeing an option but I hope this helps
The products of one process are the reactants of the other. Notice that the equation for cellular respiration is the direct opposite of photosynthesis: Cellular Respiration: C6H12O6 + 6O2 → 6CO2 + 6H2O. Photosynthesis: 6CO2 + 6H2O → C6H12O6+ 6O.
Answer:
C Darwin
Explanation:
Charles Darwin, the father of evolution theorised that within any population, there exists variation in traits which help the animals adapt to their environment and help them survive.
In the same vein, he believed that the breeds of dogs are all one species, but they have incredible genetic diversity.
Therefore, Charles Darwin first realized that variation mattered, even though he didn't know the exact mechanism.
