Ultrasonic Study of the Binary Liquid Mixture of Diethylenetriamine (DETA) and Ethylene Glycol at Temperature 296K and at Frequencies 1MHZ, 3MHZ & 5MHZ

SARWADE M. P.
Page No: 16-25
DOI: 10.86493/VEREDAS.2024/V14I1/03
Download PDFAbstract:
Density (𝜌), viscosity (5) and Ultrasonic velocity (U) of the binary mixture of Diethylenetriamine (DETA) and Ethylene Glycol are measured over entire composition range. These measurements are done at constant temperature 296 K and at frequencies 1MHZ, 3MHZ & 5MHZ. These are used to evaluate various acoustic parameters such as intermolecular free length (đŋƒ), adiabatic compressibility (đ›Ŋ𝑎𝑑), free volume (đ‘‰Æ’), molecular cohesive energy (H), surface area per mole (Y) and latent heat of vaporization (∆đģi ). These parameters have been interpreted in terms of intermolecular interactions at frequencies 1MHZ, 3MHZ & 5MHZ at constant temperature 296K.

Citations

APA: SARWADE M. P. (2025). Ultrasonic Study of the Binary Liquid Mixture of Diethylenetriamine (DETA) and Ethylene Glycol at Temperature 296K and at Frequencies 1MHZ, 3MHZ & 5MHZ. DOI: 10.86493/VEREDAS.2024/V14I1/03

AMA: SARWADE M. P.. Ultrasonic Study of the Binary Liquid Mixture of Diethylenetriamine (DETA) and Ethylene Glycol at Temperature 296K and at Frequencies 1MHZ, 3MHZ & 5MHZ. 2025. DOI: 10.86493/VEREDAS.2024/V14I1/03

Chicago: SARWADE M. P.. "Ultrasonic Study of the Binary Liquid Mixture of Diethylenetriamine (DETA) and Ethylene Glycol at Temperature 296K and at Frequencies 1MHZ, 3MHZ & 5MHZ." Published 2025. DOI: 10.86493/VEREDAS.2024/V14I1/03

IEEE: SARWADE M. P., "Ultrasonic Study of the Binary Liquid Mixture of Diethylenetriamine (DETA) and Ethylene Glycol at Temperature 296K and at Frequencies 1MHZ, 3MHZ & 5MHZ," 2025, DOI: 10.86493/VEREDAS.2024/V14I1/03

ISNAD: SARWADE M. P.. "Ultrasonic Study of the Binary Liquid Mixture of Diethylenetriamine (DETA) and Ethylene Glycol at Temperature 296K and at Frequencies 1MHZ, 3MHZ & 5MHZ." DOI: 10.86493/VEREDAS.2024/V14I1/03

MLA: SARWADE M. P.. "Ultrasonic Study of the Binary Liquid Mixture of Diethylenetriamine (DETA) and Ethylene Glycol at Temperature 296K and at Frequencies 1MHZ, 3MHZ & 5MHZ." 2025, DOI: 10.86493/VEREDAS.2024/V14I1/03