Question

Why don't we observe the debroglie wavelength of everyday macroscopic objects, such as a moving car? the macroscopic objects are moving too slowly for the wavelength to be observed macroscopic objects do not possess wave-like properties the macroscopic objects are moving too quickly for the wavelength to be observed the wavelength is too small relative to the moving object to be observed the wavelength is too large relative to the moving object to be observed?

Answer 1

This is because the wavelength is too small relative to the moving object to be observed. This is due to Planck’s constant being small, so when we use it in equations (where wavelength is proportional to Planck’s constant and inversely proportional to mass) with large objects (as compared to very tiny subatomic particles), wavelength is actually extremely small.

Step-by-step explanation:

Answer 2

This is because the wavelength is too small relative to the moving object to be observed. This is due to Planck’s constant being small, so when we use it in equations (where wavelength is proportional to Planck’s constant and inversely proportional to mass) with large objects (as compared to very tiny subatomic particles), wavelength is actually extremely small.