Short Answer
Radiation pressure and gradient force of a focused laser trapping small particles is the best answer.
Wave and optics questions test how frequency, wavelength, phase, interference, and geometry fit together. Start with the physical picture before choosing the equation.
Optical tweezers: the intensity gradient of a focused laser creates a restoring force pulling particles toward the focal point — trapping micron-scale objects.
Why This Answer Is Correct
This is a Hard-level question in Waves & Optics. The prompt is really testing whether you can connect the concept to its defining physical relationship instead of picking a nearby-but-wrong term.
If a waves question feels messy, sketch the geometry or phase relationship first, then return to the algebra.
Choices At A Glance
- A. Magnetic field gradient force
- B. Radiation pressure and gradient force of a focused laser trapping small particles
- C. Electrostatic attraction
- D. Acoustic levitation and light
When similar options appear on an exam, eliminate the ones that break the core law, use the wrong units, or confuse a definition with a consequence.
Topic Snapshot
Topic: Waves & Optics
Difficulty: Hard
Best next move: Re-state the governing law in your own words, then solve one more example from the same topic before moving on.