Physics, 31.08.2019 03:10, notseansafe
The de broglie model of the hydrogen atom: the electron can be thought of as a standing wave that fits in a circle around the nucleus with the wavelength of the electron standing wavelength given by the de broglie wavelength: by applying the boundary conditions, derive an expression for the quantized energy en which depends on the quantum number n and the orbital radius pn. you can assume the hint 1: show the relationship between kinetic energy k and potential energy u of the . hint 2: you can use the equation for orbital radius which is derivable from electron is non-relativistic. electron in orbit. total energy is e-k+u s wind electron standing wave condition and newton's second law. you don't have to derive it.
Answers: 3
Physics, 22.06.2019 10:20, brandon1888
Asmall object with mass 0.200 kg swings back and forth on the lower end of a light rope that is 3.00 m long. the upper end of the rope is attached to the ceiling. as the object swings through its lowest position, where the rope is vertical, the speed of the object is 5.80 m/s. at this point in the motion, what is the tension in the rope? (use g = 9.80 m/s2.)
Answers: 2
Physics, 22.06.2019 12:00, ameliaxbowen7
Suppose a comet has an orbital period of 309.1 years around the sun. what is it’s average distance from the sun?
Answers: 1
The de broglie model of the hydrogen atom: the electron can be thought of as a standing wave that f...
Computers and Technology, 28.04.2021 21:10