ABSTRACTObjective: Five derivatives of Carvedilol with different activities were studied in order to suggest unprepared derivative of carvedilol and suggestiona general equation to calculate the activity foe any Carvedilol derivative..Methods: GAUSSIAN 03 software employed to calculate physicochemical and geometrical properties of carvedilol derivatives, the calculated quantumchemical parameters are: The energy gap between the highest occupied molecular orbital and lowest unoccupied molecular orbital (HOMO-LUMO),dipole moment (μ), electronegativity (χ), electron affinity (A), global hardness (η), ionization potential (I), and the global electrophilicity (ω). Theresulting properties used in quantitative structure-activity relationship equation to predict activity.Results: Suggested unprepared carvedilol derivative with an activity of 1.99 × 10 mg as well as development of a general equation, two formula forcalculate activity of carvedilol derivatives specifically Log 1/C = −29.5744 + 17.1334 Log p + 19603.97 ∆ HOMO-LUMO + 2.7725 μ – 38902 η by meanof physicochemical properties and Log 1/C = 2828.25 + 15.01 N electron density − 308.016 O electron density + 306.97 H electron density + 0.32477molecular length by mean of geometrical properties.−5Conclusion: This process may be considered the cost- and time-consuming process, according to the ability of suggestions, new structures to besynthesized using computational chemistry methods.Keywords: Quantitative structure-activity relationship, Density functional theory, Highest occupied molecular orbital and lowest unoccupiedmolecular orbital gap, Global hardness, Global electrophilicity
