Evolutionary Process of Snake Population

How does Darwin's theory of evolution apply to the case of the black and orange snakes?

According to Darwin's theory of evolution, what will most likely happen to this snake population over time?

  • Most orange snakes will survive and reproduce, passing on their traits to their offspring.
  • Few black snakes will remain in the population.
  • Most black snakes will survive and reproduce, passing on their traits to their offspring.
  • The number of orange snakes in the population will not change.
  • The black snakes will survive and reproduce, passing on their traits to their offspring.
  • Few orange snakes will remain in the population.
  • Most orange snakes will survive and reproduce, passing on their traits to their offspring.
  • The number of black snakes in the population will not change.

Answer:

According to Darwin's theory of evolution, the black snakes will survive and reproduce, passing their traits to their offspring, while few orange snakes will remain in the population.

The theory of biological evolution known as Darwin's theory of evolution or Darwinism was given by Charles Darwin, an English naturalist. According to the theory, all species of organisms develop and originate via the natural selection of minor, inherited changes, which enhances the tendency of an individual to survive, compete, and develop the tendency to give rise to new ones.

Therefore, in the case of the black and orange snakes, the black snakes will have a higher survival rate and reproductive success due to their ability to blend into the changing environment. As a result, they will continue to pass on their traits to their offspring, leading to a decrease in the number of orange snakes in the population over time.

This process of natural selection based on the snakes' coloration is an example of how species can adapt and evolve in response to changing environmental conditions.

← Exploring the first three columns of the periodic table Converting grams to moles of na2cr2o7 →