Publications by authors named "J Bala Manigandan"
Article Synopsis
- This study examines how hybrid nanofluids behave thermally when flowing over an infinite vertical plate, focusing on factors like magnetohydrodynamics and radiation.
- The research uses the Dufort-Frankel method to solve equations and compares the effectiveness of water, magnetic oxide, and multi-walled carbon nanotubes as working fluids, illustrating their effects on velocity, temperature, and concentration through various plots and tables.
- Key findings show that while temperature increases with radiation, both velocity and concentration drop with higher magnetohydrodynamic values, with multi-walled carbon nanotubes having a significant impact on temperature, indicating their potential in enhancing thermal performance across various engineering applications.
Background: Glenohumeral subluxation is the most frequent complication in post stroke hemiplegia and its reduction has been considered an important goal. Though it has been demonstrated that cyclical electrical stimulation of posterior deltoid and supraspinatus muscles can reduce subluxation, the role of biceps has not been given due consideration.
Objective: The purpose of this study was to determine whether electrical stimulation to the long head of biceps could more effectively reduce gleno humeral subluxation.