# Solving for the De broglie Wavelength

Not what you're looking for? Search our solutions OR ask your own Custom question.

1. a) Calculate the De broglie wavelength of a golf ball that is 100.0 g and moving at 30.0 m/s.

b) Why does the golf ball look like a ball and not like a beam of light? (hint: where is the wavelength on the em spectrum).

Â© BrainMass Inc. brainmass.com October 6, 2022, 2:26 pm ad1c9bdddfhttps://brainmass.com/chemistry/stoichiometry/solving-debroglie-wavelength-36989

#### Solution Summary

This solution provides the steps necessary to solve for the first part of this question and presents an explanation for approaching the second part of this problem. A Word document needs to be opened to view the solution that solves for the the de broglie wavelength.

$2.49