Atomic Absorption Spectroscopy Worksheet Direct

She aspirated the new solution. The hollow cathode lamp for lead flickered to life, shooting a precise violet beam through the flame. The detector chattered. The software plotted a new point.

“Section 1: Calibration Curve,” she read aloud, her breath fogging her safety glasses. On the worksheet, it was a simple instruction: Plot absorbance vs. concentration for lead standards (0.5, 1.0, 2.0 ppm).

Dr. Elara Vance stared at the worksheet on her lab bench. It wasn't just any worksheet; it was the worksheet—the one she’d designed a decade ago as a teaching assistant, now smudged with coffee rings and the graphite ghosts of erased answers. atomic absorption spectroscopy worksheet

Too safe.

Section 3 was where things got interesting: List three spectral interferences and two chemical interferences that could cause false low results. She aspirated the new solution

She glanced at the second section: Digest the sample using a 1:1 nitric acid solution. Filter. Dilute to volume. She had done this. She had taken water from the riverbank, just below the old battery plant. But when she ran the sample through the AAS—that beautiful, humming machine that shattered light into element-specific wavelengths—the result matched the EPA’s lie: 0.48 ppm. Safe.

Not safe. Deadly.

The Trace Evidence

Outside, the Meridian River glowed silver under the moon. Tomorrow, the truth would finally absorb the light. The software plotted a new point