WebThe energy required to ionise one atom is given by [latex]E=frac{h c}{lambda}left{begin{array}{l}h=6 cdot 626 times 10^{-34} J cdot s \c=3 times. Login. ... WebQ. Ionisation energy of sodium atom is 4.946 × 102kJ mol−1. The wavelength of radiation sufficient to ionise sodium atom is 1393 78 Structure of Atom Report Error A 4×1024nm …
The electromagnetic radiation of wavelength 242 nm is just …
WebIonization Energy per mole of Na atom is 4.946×102kJ/mole. The wavelength of radiation sufficient to ionize sodium atom is A 4×1024nm B 24.2 nm C 242 nm D 400 nm Hard Open in App Solution Verified by Toppr Correct option is C 242 nm Was this answer helpful? 0 0 Similar questions WebIonisation energy of Na atom is 4.946 x 10 2 kJ⁄mol. The wavelength of radiation sufficient to ionise Na atom is: 4 x 10 24 nm 0.241 nm 241 nm 400 nm Answer is: 241 nm Explanation: E = hc ⁄ λ Image Not Yet Uploaded! Will be updated soon Report Error For More Inorganic Chemistry MCQ with Answers Click Here 9a ⁄ 5 a ⁄ 4 5a ⁄ 9 4a ⁄ 9 91 nm … indian bank minjur contact details
Ionization energy of sodium atom is 4.946 x 10^2 KJ/mol. Then, …
Web9 aug. 2024 · The ionisation energy of gaseous Na atom is 495.8 kJ mol−1 . The lowest possible frequency of light that can ionise a Na atom is : (a) 1.24 × 1012 s −1 (b) 3.15 × … WebIonization energy of sodium atom is 4.946 x 10^2 KJ/mol. Then, the wav... To find the wavelength of radiation sufficient to ionize a sodium atom, we can use the formula: E = hc/λ where E is the energy required to ionize the atom, h is the Planck constant, c is the … WebIonization Energy per mole of Na atom is 4.946×10 2kJ/mole . The wavelength of radiation sufficient to ionize sodium atom is A 4×10 24nm B 24.2 nm C 242 nm D 400 nm Hard … local bid opportunities