Which device can analyze solids and liquids and identify over 13,000 chemicals, even through water?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Study for the SOAR Academy Test. Prepare with flashcards and multiple choice questions, each with helpful hints and explanations. Get ready for your exam!

Multiple Choice

Which device can analyze solids and liquids and identify over 13,000 chemicals, even through water?

Explanation:
Raman spectroscopy gives each chemical a unique fingerprint by measuring how molecular vibrations shift light that a sample scatters. When a laser shines on solids or liquids, most light just bounces back, but a tiny portion changes energy due to the vibrations of the molecules. That pattern of energy shifts—the spectrum—is highly specific to the chemical bonds in the substance, so you can identify what’s present by comparing the spectrum to a reference library. This approach works across different states of matter, including liquids, and you can sample through water because water’s own Raman signal is relatively weak in the useful regions, so the spectral features of dissolved or dispersed chemicals remain detectable. Devices built around Raman spectroscopy often carry very large spectral libraries—over 13,000 chemicals—allowing broad identification without extensive prep. So, a Raman-based system from Rigaku can analyze solids and liquids, identify thousands of chemicals, and do so even when the sample is in water, making it the best-fit choice for the scenario described.

Raman spectroscopy gives each chemical a unique fingerprint by measuring how molecular vibrations shift light that a sample scatters. When a laser shines on solids or liquids, most light just bounces back, but a tiny portion changes energy due to the vibrations of the molecules. That pattern of energy shifts—the spectrum—is highly specific to the chemical bonds in the substance, so you can identify what’s present by comparing the spectrum to a reference library.

This approach works across different states of matter, including liquids, and you can sample through water because water’s own Raman signal is relatively weak in the useful regions, so the spectral features of dissolved or dispersed chemicals remain detectable. Devices built around Raman spectroscopy often carry very large spectral libraries—over 13,000 chemicals—allowing broad identification without extensive prep.

So, a Raman-based system from Rigaku can analyze solids and liquids, identify thousands of chemicals, and do so even when the sample is in water, making it the best-fit choice for the scenario described.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy