Energy required to break one bond in DNA is

Examine table 3 and express (a) energy required to break one bond in DNA in eV, (b) typical energy of a proton in a nucleus in eV, (c ) energy released in burining 1000 kg of coal in kilicalories

Examine table.s and express a) The energy required to break one bond in DNA in eV, b) the kinetic energy of an air molecule (10^(-2) J in eV, c) The daily intake of a human adult in kilocalories.

The net enthalpy change of a reaction is the amount of energy required to break all the bonds in reactant molecules minus amount of energy required to form all the bonds in the product molecules. What will be the enthalpy change for the following reaction ? H_(2) (g) + Br_(2) (g) rarr 2HBr (g) . Given that, bond energy of H_(2), Br_(2) and HBr is 435 kJ mol^(-1), 192 kJ mol^(-1) and 368 kJ mol^(-1) respectively

The average energy required to break a P-P bond in P_(4)(s) into gaseous atoms is 53.2 kcal mol^(-1) . The bond dissociation energy of H_(2)(g) is 104.2kcal mol^(-1) , Delta H_(f)^(0) of PH_(3)(g) from P_(4)(s) is 5.5 kcal mol^(-1) . The P-H bond energy in kcal mol^(-1) is [ Neglect presence of Van der Waals force in P_(4)(s) ]

Energy is required for :

The energy required to break one mole of Cl-Cl bonds in Cl_2 is 242 kJ mol^-1 . The longest wavelength of light capable of breaking a since Cl-Cl bond is

The energy required to break one mole of Cl-Cl bonds in Cl_2 is 242 kJ mol ""^(-1). The longest wavelength of light capable of breaking a single Cl-Cl bond is

Assertion (A): Among the two O-H bonds in H_(2)O molecule, the energy required to break the first O-H bond and the other O-H bond is the same. Reason (R) This is because the electronic environment around oxygen is the same even after brekage of one O-H bond.

The approximate energy required to break A+B~ type ionic crystal into its ions is in the range of

Calculate the wavelength of light required to break the bond between two Cl atoms in Cl_(2) molecules ((BE)_(Cl-Cl)= 243 kJ mol^(-1))