Want this question answered?
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).
The wavelength will be shorter!
In microscopic particles, it's called internal energy. In macroscopic object it's called thermodynamic energy
A higher frequency means a shorter wavelength, and a lower frequency means a longer wavelength.
The wavelength will be compressed/shortened.
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).
The wavelength will be shorter!
No object can vibrate at the wavelength of light. wavelength of light depends on the intensity of light and electron movements.
Macroscopic
Microscopic is a small object that can only be seen through a microscope. Macroscopic approach is objects that can be seen by the eye.
A higher frequency means a shorter wavelength, and a lower frequency means a longer wavelength.
In microscopic particles, it's called internal energy. In macroscopic object it's called thermodynamic energy
The wavelength of light used to observe an object must be shorter than the size of the object itself.
In Java, the final keyword specifies that the object created cannot be further redefined or derived.
The wavelength will be compressed/shortened.
It's internal energy if the object is microscopic and thermodynamic or mechanical energy if it's macroscopic.
The mass and velocity of an object do not determine its wavelength: it could be travelling in a straight line!