Mr. Potter's physical science classes conducted an experiment to determine the density of aluminum. Here are the density values each class period came up with:

- [tex]$1^{\text{st}}$[/tex] hour: [tex]$3.1 \, \text{g/ml}$[/tex]
- [tex]$2^{\text{nd}}$[/tex] hour: [tex]$3.05 \, \text{g/ml}$[/tex]
- [tex]$3^{\text{rd}}$[/tex] hour: [tex]$1.9 \, \text{g/ml}$[/tex]
- [tex]$4^{\text{th}}$[/tex] hour: [tex]$2.35 \, \text{g/ml}$[/tex]
- [tex]$5^{\text{th}}$[/tex] hour: [tex]$4.2 \, \text{g/ml}$[/tex]
- [tex]$6^{\text{th}}$[/tex] hour: [tex]$4.0 \, \text{g/ml}$[/tex]

If aluminum's true density is [tex]$2.7 \, \text{g/ml}$[/tex], how would you group the class values based on accuracy?

A. Group: [tex]$1^{\text{st}}$[/tex], [tex]$3^{\text{rd}}$[/tex], [tex]$5^{\text{th}}$[/tex], and [tex]$6^{\text{th}}$[/tex] hours, with one recorded decimal place in their values.

Group: [tex]$2^{\text{nd}}$[/tex] and [tex]$4^{\text{th}}$[/tex] hours, with two recorded decimal places in their values.

B. Group: [tex]$3^{\text{rd}}$[/tex] and [tex]$4^{\text{th}}$[/tex] hours, with values under the true density.

Group: [tex]$1^{\text{st}}$[/tex], [tex]$2^{\text{nd}}$[/tex], [tex]$5^{\text{th}}$[/tex], and [tex]$6^{\text{th}}$[/tex] hours, with values over the true density.

C. Group: [tex]$3^{\text{rd}}$[/tex] hour, with a value of 1.

Group: [tex]$4^{\text{th}}$[/tex] hour, with a value of 2.

Group: [tex]$1^{\text{st}}$[/tex] and [tex]$2^{\text{nd}}$[/tex] hours, with a value of 3.

Group: [tex]$5^{\text{th}}$[/tex] and [tex]$6^{\text{th}}$[/tex] hours, with a value of 4.

D. Group all classes as accurate.