Ultrasonic Investigation of Tramadol Drug in Alcoholic Media at Different Thermal Environment
DOI:
https://doi.org/10.53573/rhimrj.2024.v11n8.003Keywords:
Ultrasonic velocity, Density, Viscosity, Thermo-Acoustical parameters, Tramadol Drug, AlcoholAbstract
This research investigates the impact of temperature variations on the thermo-acoustic properties of tramadol drug in alcoholic solutions. The assessment and evaluation of molecular exchange interaction of alcoholic media and Tramadol drug at varied temperature have been observed under the ultrasonic mode within the range of frequency i.e. 2 MHz. By examining parameters such as ultrasonic velocity, density, viscosity, adiabatic compressibility, internal pressure, and relaxation time, we aim to gain insights into the molecular interactions and structural changes within the system. The peculiar deviation of these physical parameters confirms the structural change in the experimental solution so it is an appreciable sense shows the molecular interactions. Hence, it is obvious that the ultrasonic characterization in the given medium play a major role to search out physical and chemical properties. This study is crucial for understanding the potential effects of temperature on drug stability, solubility, and bioavailability, as well as the influence of alcohol on these properties. The findings of this research could have significant implications for drug formulation, storage, and administration, particularly in scenarios involving alcohol consumption.
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