Question
The scatter plot represents the number of hours, , it takes a laptop battery from various manufacturers to be charged to full capacity based on the number of hours, , the laptop is used.
Which statement is true?
Responses
The scatter plot shows a correlation and implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows a correlation and implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows a correlation but does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows a correlation but does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation and does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation and does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation but implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation but implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
Which statement is true?
Responses
The scatter plot shows a correlation and implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows a correlation and implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows a correlation but does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows a correlation but does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation and does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation and does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation but implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
The scatter plot shows no correlation but implies that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.
Answers
GPT-4o mini
The correct statement is:
**The scatter plot shows a correlation but does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.**
This is because correlation does not imply causation; just because two variables are correlated does not mean that one causes the other.
**The scatter plot shows a correlation but does not necessarily imply that there must be causation between the number of hours it takes the laptop battery to be charged to full capacity and the number of hours the laptop is used.**
This is because correlation does not imply causation; just because two variables are correlated does not mean that one causes the other.