Use the table to answer the question. Big Bang Theory Steady State Theory Universe began as a single small point that grew intensely hot and exploded. No explosion occurred. Universe has always existed. There is no beginning or end to the universe. As the universe expands, it becomes less dense. Density of the universe never changes. Galaxies and stars formed from clouds of dust and gas. When galaxies and stars burn out, new ones are created to replace them. Radiation detected in space provides evidences that an explosion occurred. Radiation in space cannot be explained. Which statement best describes why the steady state theory cannot explain the radiation detected in space? (1 point) Responses The theory is based on the idea that an explosion did not occur; therefore, evidence of radiation would not be predicted in the theory. The theory is based on the idea that an explosion did not occur; therefore, evidence of radiation would not be predicted in the theory. The theory is based on the idea that galaxies and stars are continuously replaced; therefore, facts about radiations would not be included in the theory. The theory is based on the idea that galaxies and stars are continuously replaced; therefore, facts about radiations would not be included in the theory. The theory is based on the idea that there is no end to the universe; therefore, findings of radiation would not be accounted for in the theory. The theory is based on the idea that there is no end to the universe;
therefore, findings of radiation would not be accounted for in the theory.
The statement that best describes why the steady state theory cannot explain the radiation detected in space is:
"The theory is based on the idea that an explosion did not occur; therefore, evidence of radiation would not be predicted in the theory."
To arrive at this answer, we need to analyze the characteristics of the steady state theory and compare them to the evidence of radiation detected in space.
The steady state theory proposes that the universe has no beginning or end, and there was no initial explosion like the Big Bang theory suggests. Instead, the theory posits that new galaxies and stars are continuously being formed to replace those that burn out.
However, the presence of radiation detected in space contradicts the steady state theory. The Big Bang theory explains the existence of this radiation as the result of residual energy from the initial explosive event. If the steady state theory were true, and there was no such explosive event, then the prediction of radiation would not be included in the theory. Therefore, the steady state theory cannot account for the observed evidence of radiation detected in space.