Base your answer to the question on the information below.
A glass tube is filled with hydrogen gas at low pressure. An electric current is passed through the gas, causing it to emit light. This light is passed through a prism to separate the light into the bright, colored lines of hydrogen's visible spectrum. Each colored line corresponds to a particular wavelength of light. One of hydrogen's spectral lines is red light with a wavelength of 656 nanometers.
Tubes filled with other gases produce different bright-line spectra that are characteristic of each kind of gas. These spectra have been observed and recorded.
A student measured the wavelength of hydrogen's visible red spectral line to be 647 nanometers. Which is a correct numerical setup for calculating the student's percent error?
1. \( \% \) error \( =\frac{656 \mathrm{~nm}-647 \mathrm{~nm}}{656 \mathrm{~nm}} \times 100 \)
2. \( \% \) error \( =\frac{656 \mathrm{~nm}-647 \mathrm{~nm}}{647 \mathrm{~nm}} \times 100 \)
3. \( \% \) error \( =\frac{647 \mathrm{~nm}-656 \mathrm{~nm}}{656 \mathrm{~nm}} \times 100 \)
4. \( \% \) error \( =\frac{647 \mathrm{~nm}-656 \mathrm{~nm}}{647 \mathrm{~nm}} \times 100 \)