When you are finished with the experiment, complete the following data analysis and submit your answers.
Determine the volume of the box and the block.
Determine the ratio of the block to the box:
The volume of box=(L)(W)(H)
The volume of the block (L)(W)(H)
Multiply this number by 100 to turn it into a percent.
Complete this statement: The volume of the block is _____ percent of the volume of the box.
Determine the ratio of the number of hits to the number of shots:
(number of hits100 shots)
Multiply this number by 100 to turn it into a percent.
Complete this statement: The block was hit _____ percent of the time.
Compare the results of step 2 to the results of step 3. Are the percentages similar?
Write a conclusion discussing the following items:
Based on your findings, do you think Rutherford's hypothesis was reasonable?
Restate Rutherford's hypothesis and describe how you tested it.
State whether your results support the hypothesis. If they do not, can you suggest some error in experimental procedure (other than a general human error) that might explain it?
Finally, explain how this experiment confirms the nuclear model of the atom and the idea that most of the atom is empty space.
the ones that are int the bracket are the formulas asap
man i was hoping to get a free answer
man I was looking for the answer I guess you might have failed the project sorry man I think I will to
To complete the data analysis and answer the questions, follow the steps outlined below:
1. Determine the volume of the box and the block:
- Measure the length (L), width (W), and height (H) of the box.
- Use the formula: Volume of the box = (L) * (W) * (H) to calculate the volume.
- Measure the length (L), width (W), and height (H) of the block.
- Use the same formula: Volume of the block = (L) * (W) * (H) to calculate the volume.
2. Determine the ratio of the block to the box:
- Divide the volume of the block by the volume of the box.
- Multiply the result by 100 to turn it into a percentage.
- This gives you the percentage of the volume of the block compared to the box.
3. Complete the statement: The volume of the block is _______ percent of the volume of the box.
4. Determine the ratio of the number of hits to the number of shots:
- Count the number of hits on the block during the experiment.
- Calculate the ratio by dividing the number of hits by the total number of shots (e.g., 100 shots).
- Multiply the result by 100 to turn it into a percentage.
- This gives you the percentage of times the block was hit out of the total shots.
5. Complete the statement: The block was hit _______ percent of the time.
6. Compare the results of step 2 (block vs. box volume percentage) to step 4 (hit ratio). Assess if the percentages are similar or different.
7. Write a conclusion discussing the following items:
- Based on your findings, discuss whether Rutherford's hypothesis was reasonable.
- Restate Rutherford's hypothesis and describe how you tested it.
- State whether your results support the hypothesis. If not, suggest possible errors in the experimental procedure (excluding general human error).
8. Finally, explain how this experiment confirms the nuclear model of the atom and the idea that most of the atom is empty space.
When you are finished with the experiment, complete the following data analysis and submit your answers.
Determine the volume of the box and the block.
Determine the ratio of the block to the box:
Multiply this number by 100 to turn it into a percent.
Complete this statement: The volume of the block is _____ percent of the volume of the box.
Determine the ratio of the number of hits to the number of shots:
Multiply this number by 100 to turn it into a percent.
Complete this statement: The block was hit _____ percent of the time.
Compare the results of step 2 to the results of step 3. Are the percentages similar?
Write a conclusion discussing the following items:
Based on your findings, do you think Rutherford's hypothesis was reasonable?
Restate Rutherford's hypothesis and describe how you tested it.
State whether your results support the hypothesis. If they do not, can you suggest some error in experimental procedure (other than general human error) that might explain it?
Finally, explain how this experiment confirms the nuclear model of the atom and the idea that most of the atom is empty space.
Do you expect us to actually do your experiment for you?
You have explicit instructions. Just where do you get stuck?