The energy from radiation can be used to cause the rupture of chemical bonds. A minimum energy of 242 kJ/ mole is required to break the chlorine-chlorine bond in Cl2. What is the longest wavelength of radiation that possesses the necessary energy to break the bond? What type of electromagnetic radiation is this?
The energy from radiation can be used to cause the rupture of chemical bonds. A minimum...
The energy from radiation can be used to cause the rupture of chemical bonds. A minimum energy of 242 kJ/mol is required to break the chlorine–chlorine bond in Cl2. Part A What is the longest wavelength of radiation that possesses the necessary energy to break the bond? Express your answer with the appropriate units. λ = SubmitMy AnswersGive Up Part B
The reason there is danger in exposure to high energy radiation is that the radiation can rupture chemical bonds. In some cases cancer can be caused by it. A C-C single bond has a bond energy of aprox 348 kJ/mol. What wavelength ( in nm) of light is required to provide sufficient energy to break the C-C bond?
Ultraviolet radiation, and radiation of shorter wavelengths, can damage biological molecules because it carries enough energy to break bonds within molecules. A typical carbon-carbon bond requires 5.78 x 1019 J to break. What is the longest wavelength of electromagnetic 8 pts. 17 radiation that can break a carbon-carbon bond?
These UV photons can break chemical bonds in your skin to cause sunburn—a form of radiation damage. If the 320 nm radiation provides exactly the energy to break an average chemical bond in the skin, estimate the average energy of these bonds in kj/mol. Please provide a detail step of your methods. Thank you so very much!!!
One type of sunburn occurs on exposure to UV light of wavelength in the vicinity of 305 nm . (A) What is the energy of a photon of this wavelength? (B) What is the energy of a mole of these photons? (C) How many photons are in a 1.20 mJ burst of this radiation? (D) These UV photons can break chemical bonds in your skin to cause sunburn—a form of radiation damage. If the 305 nm radiation provides exactly the...
I know it's two questions but can someone please help me here. 130. The energy required to break the bond between two oxygen atoms in an oxygen molecule is 8.2 x 10-19 ). What wavelength of electromagnetic radiation possesses enough energy to break this bond? What is the frequency of electromagnetic radiation that has a wavelength of 610 pm? b) The visible portion of the electromagnetic spectrum covers the range from approximately 350 to 700 nm. Is the electromagnetic radiation...
One type of sunburn occurs on exposure to UV light of wavelength in the vicinity of 300 nm . Part A What is the energy of a photon of this wavelength? E = 6.03•1019 J SubmitMy AnswersGive Up Incorrect; Try Again; 4 attempts remaining Part B What is the energy of a mole of these photons? E = J SubmitMy AnswersGive Up Part C How many photons are in a 1.10 mJ burst of this radiation? N = photons SubmitMy...
One type of sunburn occurs on exposure to UV light of wave lengthin the vicinity of 325 nm. a.) What is the energy of a photon of this wavelength? b.) What is the energy of a mole of these photons? c.) How many photons are in 1.00mJ burst of thisradiation? d.) These UV photons can break chemical bonds in you skin tocause sunburn~a form of radiation damage. If the 325 nm radiationprovides exactly the energy to break an average chemical...
Peroxyacyl nitrates contain two relatively weak bonds that can be broken by low-energy photons. The weakest is the N−O bond in the nitrate functional group of the molecule with a standard bond-dissociation energy of 201 kJ mol−1. What is the longest wavelength of a photon, in nanometres, that has enough energy to cause the photodissociation of the weakest bond. Assume all energy of the photon is efficiently used for the photodissociation. Express your answer to three significant figures and include...
What is the highest energy form of radiation in the electromagnetic spectrum? Why is radiation therapy used in treating cancer, when it can also cause cancer? What is the energy in joules and eV of a photon in a radio wave from an AM station that has a 1730-kHz broadcast frequency? What is the wavelength of a 1.40-eV photon? What is the “particle-wave duality” of light?