= Aeroacoustics: Physical principles and modeling approaches =

{{{
TIFR Center for Applicable Mathematics, Bangalore
20-21 May, 2015
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== Lecturer ==
[[http://www.engin.umich.edu/college/about/people/profiles/a-to-e/karthik-duraisamy | Prof. Karthik Duraisamy]]<<BR>>
Department of Aerospace Engineering<<BR>>
University of Michigan, Ann Arbor, MI.

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== Course goals ==

 * Learn to describe sound and its propagation.
 * Understand the fundamental principles of aerodynamically generated noise, its physical origins and mathematical description.
 * Be in a position to predict noise generated by moving bodies in motion. 

== Pre-requisites ==

Basic understanding of fluid mechanics and partial differential equations.

== Course contents ==

 * Introduction to physical acoustics and wave propagation
 * Explanation of monopole, dipole and quadrupole noise sources
 * Sound generation by bodies in motion
 * Applications in helicopter/propeller rotors, jet noise, etc.

== Schedule ==

 * 20 May: 10:30am to 12 noon
 * 20 May: 2:00pm to 3:30pm
 * 21 May: 10:30am to 12 noon
 * 21 May: 2:00pm to 3:30pm
The lectures will be held in LH-111 (first floor).

== Supported by ==
 * Airbus Group Corporate Foundation Chair, TIFR-CAM, Bangalore

== Participants ==

 1. Sumit Kumar Patel, Aerospace, IISc.
 1. Josy P. Pullockara, CTFD, NAL
 1. Sintu Singha, CTFD, NAL
 1. Kaushik K. N., CTFD, NAL
 1. Saikishan Suryanarayanan, EMU, JNCASR
 1. Daisy Dahiya, TIFR-CAM
 1. Santhosh A. K. Aerospace, IISc.
 1. Parveena Shamin, Mathematics, IITM
 1. Vasudeva Murthy, TIFR-CAM
 1. Deepak H. S., Mathematics, MSRSAS
 1. Praveen Kumar B., Aerospace, IISc
 1. Ramanathan V., Aerospace, IISc
 1. Deep Ray, TIFR-CAM
 1. Praveen C., TIFR-CAM