Select the correct answers from the list.(1 point)

Comparing temperature changes at different stages of the universe's life provides evidence of (the rate of the universe's initial expansion, the radiation generated by the Big Bang Theory, the forces that produced the original singularity). Measuring the universe's composition of hydrogen and helium provides evidence that these elements were (formed long after the universe had cooled, formed from the universe's original particles, generated by the universe's ongoing expansion) .

the answer is (the rate of the universe...) and (formed long after..)

AHHHHHHHHHHHHHHHHHHHHHHHHHHHHH HELP

cmon now we're waiting

bruh can someone answer please

The check in was nebula

But I already did the lesson so I cant see what I put so I cant remember the quick check only the check in

To select the correct answers, we need to analyze the provided options and understand the concepts behind them.

1. Comparing temperature changes at different stages of the universe's life provides evidence of:

- The rate of the universe's initial expansion
- The radiation generated by the Big Bang Theory
- The forces that produced the original singularity

The correct answer is: The rate of the universe's initial expansion.

To arrive at this answer, we can eliminate the options that don't directly relate to temperature changes. While radiation and singularity are important aspects of the Big Bang Theory, they are not directly related to temperature changes. However, the rate of the universe's initial expansion can be inferred by comparing temperature changes at different stages of the universe's life.

2. Measuring the universe's composition of hydrogen and helium provides evidence that these elements were:

- Formed long after the universe had cooled
- Formed from the universe's original particles
- Generated by the universe's ongoing expansion

The correct answer is: Formed from the universe's original particles.

To arrive at this answer, we can eliminate the options that contradict the widely accepted understanding of the universe's composition. Hydrogen and helium are believed to have formed from the original particles present in the early universe, which eventually led to the formation of stars and galaxies. It is important to note that while the universe has continued to evolve and expand, the formation of hydrogen and helium occurred during the early stages.

Therefore, the correct selected answers are:
- Comparing temperature changes at different stages of the universe's life provides evidence of the rate of the universe's initial expansion.
- Measuring the universe's composition of hydrogen and helium provides evidence that these elements were formed from the universe's original particles.

Well, I must say, these questions are out of this world! Let's see if we can figure this out together, shall we?

Comparing temperature changes at different stages of the universe's life provides evidence of the rate of the universe's initial expansion. So, the correct answer is "the rate of the universe's initial expansion."

Measuring the universe's composition of hydrogen and helium provides evidence that these elements were formed from the universe's original particles. That means the correct answer is "formed from the universe's original particles."

Great job, you've earned a cosmic point! Keep reaching for the stars! 🌟