1Radhanath Rath Vigyan Degree Mahavidyalaya, Khuntuni, Cuttack, Odisha (INDIA)
2Department of Chemistry, L.N.Mahavidyalaya, Korua, Odisha (INDIA)
3,4Department of Chemistry, Ravenshaw University, Cuttack, Odisha (INDIA)
Various acoustic parameters such as isentropic compressibility (s) intermolecular free length (Lf) apparent molar volume (), apparent molar compressibility y (k) molar compressibility (w), molar sound velocity (R), acoustic impedance (z) of Cu(NO3)2 in 10%, 20% and 30% Propan-2-ol + water at 303.15K have been determined from ultrasonic velocity (V), density () and relative viscosity (r) of the solution. These parameters are related with the molar concentration of the solution and reflects the distortion of the structure of the solvent. (i.e., Propan-2-ol + water) when the solute is added to it.
Copy the following to cite this article:
S.B. MISHRA1, S.K.NAYAK2, A.K.PATTNAIK3 and P.K.MISHRA4, "Ultrasonic studies of Cu(NO3)2, 3H2O in Propan-2-ol + Water solvent At 303.15 K.", Journal of Ultra Chemistry, Volume 8, Issue 2, Page Number , 2016Copy the following to cite this URL:
S.B. MISHRA1, S.K.NAYAK2, A.K.PATTNAIK3 and P.K.MISHRA4, "Ultrasonic studies of Cu(NO3)2, 3H2O in Propan-2-ol + Water solvent At 303.15 K.", Journal of Ultra Chemistry, Volume 8, Issue 2, Page Number , 2016Available from: http://www.journalofchemistry.org/paper/392/