So far in the electromagnetic spectrum we have gamma radiations having the shortest wavelength. In case of de Broglie's waves the matter waves of massive objects such as an iron ball moving at a faster rate would have the shortest wavelength which could not be measured even. So we declare that only light particles such as electron, proton, neutron or alpha particle, deutron moving at higher speeds would act as a wave with shortest wavelength.
A surfer would be concerned mostly with a waves amplitude as the larger the amplitude, the higher the wave crest.
The wavelength would double.
According to (longest wavelength) ROYGBIV (shortest wavelength), it would be "indigo."
um it would be (approximately) the same wavelength of the green light in nanometers instead of any other color wavelength it would nanometers.
fast moving Golf ball.
a golf ball, only if it is made of gold because of the very specific atomic mass of gold.
the electron would have the longer wavelength b/c the proton has more momentum and λ=h/p (λ is wavelength, h is planc's constant and p is momentum)
So far in the electromagnetic spectrum we have gamma radiations having the shortest wavelength. In case of de Broglie's waves the matter waves of massive objects such as an iron ball moving at a faster rate would have the shortest wavelength which could not be measured even. So we declare that only light particles such as electron, proton, neutron or alpha particle, deutron moving at higher speeds would act as a wave with shortest wavelength.
IF a wave moving at a constant speed were to have it's wavelength doubled (Wavelength x 2), then the frequency of the wave would be half of what it originally was (Frequency / 2).
It would change by shifting to the wavelength blue.
In theory, according to de Broglie, any moving object would have a wavelength; but the wavelength of large sized objects, such as a car, or even a speck of dust, would be too small to measure.
Yes, they would have a momentum. ^^
The neutron is 0.16% larger than a proton.
A surfer would be concerned mostly with a waves amplitude as the larger the amplitude, the higher the wave crest.
The helium nucleus is larger than the proton. The He nucleus consists of two protons, and one (rarely) or two (most commonly) neutrons. (These are He-3 and He-4, respectively.) That would make the helium nucleus a multiple of three or four times the mass of that of a single proton.
If a proton would be 1, an electron would be 0.000544. An electron is 1,836 times lighter than a proton. A neutron would be 1.001 as a proton is 99.86% the mass of a neutron