Yes, definitely . For the given metal of particular work function, decrease in wavelength of the incident beam increases the maximum value of kinetic energy with which the photoelectrons are emitted, but the photoelectric current remains the same, stoppage voltage increases.
The focal length of a spherical mirror is not affected by the wavelength of light used. It is determined by the mirror's radius of curvature and refractive index of the surrounding medium. The wavelength of light only influences the diffraction effects, not the focal length.
Rayleigh scattering occurs when particles are much smaller than the wavelength of light, leading to scattering in all directions and a strong dependency on the fourth power of the inverse of the wavelength. Mie scattering, on the other hand, involves particles that are similar in size to the wavelength of light, leading to scattering across a wide range of angles and less dependency on the wavelength.
Red light has the longest wavelength and bends the least upon exiting a prism.
Absorbance refers to the extent to which a sample absorbs light depends strongly upon the wavelength of light while wavelength refers to the Forms of electromagnetic radiation like radio waves, light waves or infrared (heat) waves make characteristic patterns as they travel through space
White light is not a single wavelength. Our eyes perceive three major colors, and fabricate "white" from that. The speed of light in materials is a function of wavelength, and so the different wavelengths of light are bent slightly differently upon entering the material of the prism, and bent again slightly differently upon exiting. The net is the violet light is spread one way, and the red a different way, with the other colors arranged in between. So Lets Say: --------------------------- <= Ultra Violet Light>>>|Prism| |Spectrum| --------------------------- <= Infared U & I are the to rays coming out of the prism from the white light
Yes, the angel of refraction does depend on the wavelength of the light passing through a medium. This is known as dispersion, where different wavelengths of light are bent at different angles as they pass through a medium, causing them to separate.
The focal length of a spherical mirror is not affected by the wavelength of light used. It is determined by the mirror's radius of curvature and refractive index of the surrounding medium. The wavelength of light only influences the diffraction effects, not the focal length.
it depends upon what wavelength of light is absorbed
Rayleigh scattering occurs when particles are much smaller than the wavelength of light, leading to scattering in all directions and a strong dependency on the fourth power of the inverse of the wavelength. Mie scattering, on the other hand, involves particles that are similar in size to the wavelength of light, leading to scattering across a wide range of angles and less dependency on the wavelength.
Red light has the longest wavelength and bends the least upon exiting a prism.
There are no universal letters for the zoom function. It will depend upon your software.
The answer to this question will depend upon the jurisdiction in which the conduct occurs.
Based upon the light spectrum colors are different wavelengths of light. Think about it as on the same wavelength as microwave and gamma.
A incoming ray is the light reflecting upon a solid surface without it being absorbed. The incoming light is also referred to as vacuum wavelength.
Absorbance refers to the extent to which a sample absorbs light depends strongly upon the wavelength of light while wavelength refers to the Forms of electromagnetic radiation like radio waves, light waves or infrared (heat) waves make characteristic patterns as they travel through space
Both. But that's still only one relationship, because the wavelength and frequency are tightly related ... if you specify one, you've specified both.
Because energy rich compounds needed in dark reaction are produced during light reactions.