Which statement best describes why the steady state theory cannot explain the radiation detected in space?
(1 point)
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 the density of the universe never changes; therefore, information about radiation would not be present 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 an explosion did not occur, therefore, evidence of radiation would not be predicted 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.
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 the density of the universe never changes; therefore, information about radiation would not be present in the theory."
To understand why the steady state theory cannot explain the radiation detected in space, we need to first understand what the steady state theory is. The steady state theory was an alternative cosmological model to the Big Bang theory, proposed in the mid-20th century. It suggested that the universe has always existed and is infinitely old, and that new matter is continuously being created to replace matter that moves away from galaxies.
In contrast to the Big Bang theory, which predicts the existence of a background radiation called the Cosmic Microwave Background (CMB), the steady state theory does not make any specific predictions about radiation. This is because the theory is based on the assumption that the density of the universe remains constant over time. In other words, the amount of matter in the universe does not change. Since the theory does not account for any significant changes in the density of the universe, it does not provide an explanation for the presence of radiation, such as the CMB, which is a key piece of evidence supporting the Big Bang theory.
Therefore, the statement that best describes why the steady state theory cannot explain the radiation detected in space is that the theory is based on the idea that the density of the universe never changes, and therefore, information about radiation would not be present in the theory.