X-ray radiation is typically used to see molecules in techniques such as X-ray crystallography. X-rays have a wavelength on the order of Angstroms, which allows them to interact with the electron clouds of atoms in a crystal to produce a diffraction pattern that can be used to determine the molecular structure.
X-rays can be used to see the internal structure of molecules as they have short wavelengths that can penetrate materials and reveal the arrangement of atoms within the molecules. X-ray crystallography is a common technique used for this purpose.
Visible light cannot be used to see molecules because the wavelength of visible light is much larger than the size of molecules. This means that visible light cannot resolve the small details of molecules, making them invisible to the human eye.
Visible light cannot be used to "see" molecules because the wavelength of visible light is much larger than the size of molecules, making them invisible to the human eye. Alternative methods for visualizing molecules include electron microscopy, atomic force microscopy, and X-ray crystallography. These techniques use different forms of radiation or physical probes to create detailed images of molecular structures at a much smaller scale than visible light can achieve.
Dogs do not emit wavelengths; wavelength is a property of electromagnetic radiation such as light. Dogs can perceive different wavelengths of light with their eyes, allowing them to see in a limited spectrum of colors.
In order to "see" something with eyes, the object must be longer than the light wave refracted from it. Molecules are too small to be refracted.
The wavelength of UV radiation energy is typically shorter than the wavelength of normal sunlight radiation, so you can't see UV
X-rays are a form of electromagnetic radiation with a very short wavelength. They are used by doctors to see inside the human body.
X-rays can be used to see the internal structure of molecules as they have short wavelengths that can penetrate materials and reveal the arrangement of atoms within the molecules. X-ray crystallography is a common technique used for this purpose.
because light used to see an object must have a wavelength
Visible light cannot be used to see molecules because the wavelength of visible light is much larger than the size of molecules. This means that visible light cannot resolve the small details of molecules, making them invisible to the human eye.
Visible light cannot be used to "see" molecules because the wavelength of visible light is much larger than the size of molecules, making them invisible to the human eye. Alternative methods for visualizing molecules include electron microscopy, atomic force microscopy, and X-ray crystallography. These techniques use different forms of radiation or physical probes to create detailed images of molecular structures at a much smaller scale than visible light can achieve.
Dogs do not emit wavelengths; wavelength is a property of electromagnetic radiation such as light. Dogs can perceive different wavelengths of light with their eyes, allowing them to see in a limited spectrum of colors.
In order to "see" something with eyes, the object must be longer than the light wave refracted from it. Molecules are too small to be refracted.
Electromagnetic radiation between 490-790 terahertz, or about 390-700 nanometers wavelength.
285nm is ultraviolet, and I think with a spectroscope you actually look with your eye to see the emission - you would not be able to see this wavelength. If you put some kind of a film that reacts to UV light in the spectroscope, you could then "see" it as a mark on the film.
Infrared
Atoms can't be seen because they are smaller than a wavelength of light