1,727,363 research outputs found
Expert of the Month: Dr. Sanjay Kumar
Dr. Sanjay Kumar is an assistant professor in the Department of Engineering. His areas of expertise and research include fluid mechanics using air flow, fluid flow and shock waves. Kumar came to UTB/TSC in 2006 and teaches fluid mechanics, thermodynamics, gas dynamics, turbulence and statistics and dynamics. Much of his research is applicable to complex mechanics and physics of airplanes, submarines, rockets and automobiles. He received his Ph.D. from the California Institute of Technology in 2003 and is a member of the American Physical Society and Sigma Xi.https://scholarworks.utrgv.edu/utbmedia/1208/thumbnail.jp
India
<p>volume = {1}, Edition = {1}, author = {Dwivedi Dr. Sanjay Kumar}, title = {India's Efforts in Coping the threats of Climate Change}, publisher = {Saurabh Chandra}, journal = {SOCRATES},ISSN 2347-6869 year = {2013}, pages = {55-72}</p>
<p>http://www.socratesjournal.com/</p>
<p> </p
Bandwidth maximization of a single degree of freedom magnetic suspension system
Thesis (B.S.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1995.Includes bibliographical references (leaf 46).by Sanjay Kumar Aggarwal.B.S
Correction to:The state of HRM in the Middle East: Challenges and future research agenda (Asia Pacific Journal of Management, (2019), 36, 4, (905-933), 10.1007/s10490-018-9587-7)
The author group in the original version of this article contained a mistake. The last author’s name should be Sanjay Kumar Singh, instead of Sanjay Singh. The correct name appears above. The original article has been corrected.</p
Adaptive control of nonlinear systems using neural networks by Sanjay Kumar Mazumdar.
Bibliography : leaves 238-262.xxiii, 262 leaves : ill. ; 30 cm.Thesis (Ph.D.)--University of Adelaide, Dept. of Electrical and Electronic Engineering, 199
Morphometric Analysis of Common Bile Duct: A Cadaveric Study
Introduction: Though human beings look similar in their general anatomical appearances but
during the investigation of a particular structure in detail, it is surprising how frequently we meet one
sort or another type of variation. Literature reports that accurate dimensions of CBD are debatable.
Therefore, determination of a spontaneous abnormality or atypical variation is important and
reference range plays a significant role to classify the normal or abnormal duct.
Materials and Methods: A total of thirty (30) cadavers were dissected at MGM Medical College
Mumbai, India from Jan 2012 to March 2013 for anatomical features of the common bile duct-like
their size, variations in the course and termination.
Results: The length of the common bile duct varies 35.19 mm to 62.43 mm with Mean ± SD
46.92 ± 7.91 mm and diameter varied between 3.65 mm to 10.31 mm with mean value 6.50 ± 1.77.
The correlation between length and diameter of common bile duct is statistically insignificant (p =
0.243)
Conclusion: We established a reference range for the CBD length and diameter. Thus, the exact
knowledge of the anatomy of the common bile duct is significant for successful hepato-biliary
surgery and biliary patholog
sj-png-6-pie-10.1177_09544089221079949 - Supplemental material for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity
Supplemental material, sj-png-6-pie-10.1177_09544089221079949 for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity by Kushal Sharma, Neha Vijay, Sanjay Kumar and Ruchika Mehta in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-png-11-pie-10.1177_09544089221079949 - Supplemental material for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity
Supplemental material, sj-png-11-pie-10.1177_09544089221079949 for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity by Kushal Sharma, Neha Vijay, Sanjay Kumar and Ruchika Mehta in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-png-4-pie-10.1177_09544089221079949 - Supplemental material for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity
Supplemental material, sj-png-4-pie-10.1177_09544089221079949 for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity by Kushal Sharma, Neha Vijay, Sanjay Kumar and Ruchika Mehta in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-png-21-pie-10.1177_09544089221079949 - Supplemental material for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity
Supplemental material, sj-png-21-pie-10.1177_09544089221079949 for Heat and mass transfer study of hydrocarbon based magnetic nanofluid (C1-20B) with geothermal viscosity by Kushal Sharma, Neha Vijay, Sanjay Kumar and Ruchika Mehta in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
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