You can use De' Broglie's equation. I think it is wavelength = plank's constant/mass of the object *velocity.
velocity is unknown in this case, m= 154g and wavelength is 0.450*10-9
0.450*10-9 = look up the value of plank's constant/ 0.145 kg* Velocity.
Rearrange the equation to get velocity of an object.
=1.08×10−34
It can. See link for de Broglie wavelength.
Wavelength equals Planck's Constant divided by momentum.
Louis de Broglie
wavelength
yes , because acc. to de-broglie every partical has dualy nature. Now: wavelength ==== plank constant/momentum, but when we calculate the wavelength of the baseball then it is very-very small and it is impossible to detect since things like interference would happen on that length scale. for eg. let- p=5kg/m: then-- wavelength=plank constant/wavelength i.e--- wave length= 1.32*10ratio the power-34 which very-very small .
The de Broglie Wavelength of a mosquito can be calculated using a specific formula. For this example, the wavelength is 2.8 to the 28th power meters.
The De Broglie Wavelength is being measured in the electromagnetic fields. The De Broglie Wavelength theory is related to Bohr's Quantum Theory and is about the energy of atom particles.
The de Broglie wavelength of a proton becomes shorter.
Yes
de Broglie wavelength depends only on the mass and speed of the particle and not on the temperature
Because such a wavelength is way too small to be significant. The de Broglie wavelength is inversely proportional to an object's momentum (mass x speed).
1924
use de Broglie's wavelength: lambda = h/mv
It can. See link for de Broglie wavelength.
Wavelength equals Planck's Constant divided by momentum.
Louis de Broglie
wavelength