electromagnetic spectrum
Radiant energy increases with an increase in temperature or intensity of a light source. It decreases as it moves further away from the source due to scattering, absorption, and reflection by the medium through which it travels.
As frequency increases, the wavelength decreases and the energy of each photon (in the case of light) increases. Similarly, the period (time taken for one cycle) decreases as frequency increases.
As the temperature of an object decreases, its thermal energy also decreases because the particles within the object have less kinetic energy. Conversely, as the temperature increases, the thermal energy of the object increases as the particles move more rapidly, resulting in higher kinetic energy.
The energy of a photon is inversely proportional to its wavelength. This means that as the wavelength increases, the energy of the photon decreases. Conversely, as the wavelength decreases, the energy of the photon increases.
The house's temperature increases as the sun's radiant energy touches it. This is because the house absorbs the energy, which causes its molecules to move faster and increases their kinetic energy, resulting in a rise in temperature.
Radiant energy increases with an increase in temperature or intensity of a light source. It decreases as it moves further away from the source due to scattering, absorption, and reflection by the medium through which it travels.
The individual animal's energy increases, the individual plant's energy decreases.
The energy increases as the frequency increases.The frequency decreases as the wavelength increases.So, the energy decreases as the wavelength increases.
As frequency increases the energy of a wave also increases.
As frequency increases, the wavelength decreases and the energy of each photon (in the case of light) increases. Similarly, the period (time taken for one cycle) decreases as frequency increases.
As the temperature of an object decreases, its thermal energy also decreases because the particles within the object have less kinetic energy. Conversely, as the temperature increases, the thermal energy of the object increases as the particles move more rapidly, resulting in higher kinetic energy.
There is less friction from the bed and banks of the river downstream (where the gradiant decreases) so the velocity increases.
As a ball fall downwards, it's velocity continuously increases, therefore the kinetic energy increases. As the height from the ground level decreases, the potential energy decreases. Further, the total mechanical energy remains constant throughout the motion.
The energy of a photon is inversely proportional to its wavelength. This means that as the wavelength increases, the energy of the photon decreases. Conversely, as the wavelength decreases, the energy of the photon increases.
The energy of the photons decreases as the wavelength increases
The house's temperature increases as the sun's radiant energy touches it. This is because the house absorbs the energy, which causes its molecules to move faster and increases their kinetic energy, resulting in a rise in temperature.
As a ball falls, its potential energy decreases as it converts to kinetic energy. As it moves closer to the ground, its kinetic energy increases at the expense of potential energy.