Yes you can! Energy E=hf = hc/w where w is the wavelength. The constant hc is a key constant in physics. It is energy moment and has the value .2 picopico joule meter or 300 micro electron volt meter (uevm).
Yes, you can convert wavelength into energy using the equations c = λν and E = hν, where c is the speed of light, λ is the wavelength, ν is the frequency, E is the energy, and h is Planck's constant. First, you can calculate the frequency using ν = c/λ, and then find the energy using E = hν.
The chemical equation 2H2 + O2 → 2H2O demonstrates the law of conservation of mass because the number of atoms of each element on both sides of the equation is equal, meaning mass is conserved. It also demonstrates the law of conservation of energy because the total energy of the reactants is equal to the total energy of the products, indicating that energy is conserved in the reaction.
The word equation for iron plus chlorine yields iron chloride is: Iron + Chlorine → Iron chloride.
mass. It shows that energy (E) is directly proportional to mass (m), with the speed of light (c) being the scaling factor. The equation is a fundamental principle of physics, demonstrating the interconnected nature of mass and energy in the universe.
The wavelength of light emitted during a transition can be related to the energy levels involved using the Rydberg formula. Rearranging the formula for the final energy level, we find that the end value of n is 2 in this case. This means the electron transitions from the n=4 to the n=2 energy level in the hydrogen atom.
reacting to form
The equation velocity equals wavelength multiplied by frequency is called the wave equation. It describes the relationship between the speed of a wave, its wavelength, and its frequency.
Frequency divided by 300 equals Wavelength
Energy of microwaves is related to wavelength (lambda) and the speed of light (C). Energy equals Planck's Constant (6.6x10^34 Joules*second) multiplied by the speed of light (3.0X10^8 meters/second) divided by wavelength.
Yes. It is Einstein's celebrated equation, E=mc2. It means "energy equals mass times the speed of light squared." It tells how to convert mass into energy. Einstein showed through this that mass and energy can be changed into each other.
If you are talking about an electromagnetic wave; energy is proportional to frequency (E=hf), and frequency is inversely proportional to wavelength (wavelength equals velocity divided by frequency). So when the wavelength is increased, the energy is decreased.
Shorter wavelength = more energy. The farther the electron falls, the more energy that will be emitted.
Any wave. Of you have a wave (light, water etc.), it will have a frequency and a wavelength. Multiply these and you get the speed at which the wave is moving.
Mass Energy.
You also need an equation for y in order to convert to rectangular form.
You can't determine the amount of wavelength that equals 5 joules. Wavelength measures the length of the period while joules measure energy.
Matter and energy can convert into each other according to Einstein's famous equation, E = mc^2. This means that matter can be converted into energy and vice versa. For example, in nuclear reactions, some of the mass of the nucleons is converted into energy.
Longer wavelength less energy and shorter wavelength equals more energy. This is because velocity (speed)=frequency x wavelength. And te velocity of all EM waves is the speed of light. we know the expression- frequency=speed of light(c)/wavelength Energy is given by- E=h*frequency=h*c/wavelength {h=Planck's constant} so,energy is directly proportional to frequency and inversly proportional to wavelength...that is energy increases with increase in frequency and decreases with increase in wavelength. example:-red color has more wavelength and hence has less energy.