Dr. Meera Chandrasekhar (Kannada: à ²¡à ²¾. à ²®à ³Âà ²°à ²¾ à ²Âà ²Âà ²¦à ³Âà ²°à ²¶à ³Âà ²Âà ²°à ³Â), is a Curatorsâ Teaching of Physics and Astronomy at the University of Missouri. She was the recipient of the 2014 Baylor University's Robert Foster Cherry Award for Great Teaching. Her research focuses on optical spectroscopy of semiconductors and superconductors under pressure. Meera has also developed several hands-on physics programs for students in grades 5âÂÂ12, and summer institutes for K-12 teachers.
Chandrasekhar was born in Andhra Pradesh, India into an ethnic Kannadiga family. Her father Chandrapal was an officer in the Indian Army, and her mother Kusuma was a housewife. Growing up, she lived in several towns and cities across India. She is married to H. R. Chandrasekhar, a professor of physics and astronomy at the University of Missouri. They have three children.
Chandrapal obtained a B.Sc. degree from M. G. M. College, Udupi, in 1968, an M.Sc. from the Indian Institute of Technology, Madras, India. She received her Ph.D. at Brown University in 1976. After a post-doctoral fellowship at Max Planck Institute for Solid State Research, she arrived at the University of Missouri in 1978, where she is currently a professor in the department of physics and astronomy.
Chandrasekhar's research interests are in the area of optical spectroscopy of semiconductors, superconductors, and conjugated polymers, with an emphasis on high-pressure studies. She has published over 120 papers in this area.
Chandrasekhar has an interest in education at all levels. At the university level she has restructured several courses in her department, and developed a physics course for elementary education majors that has an annual enrollment of over 140 students. Beginning in 1993, she led a series of programs for K-12 students and their teachers, supported by the National Science Foundation, and the Missouri Department of Higher Education. The programs included Exploring Physics for 5-7 grade female students, which focused on learning physics concepts through hands-on activities; Family Evenings with Science and Technology (FEST), a middle school parent and student program where each team built a miniature working drawbridge; Saturday Scientist, an industry based experience for 8-9 grade students designed to increase students' awareness of potential careers in the physical sciences; Newton Summer Science Academy for 9-11 grade girls, which integrated science, engineering and mathematics through a toy factory building project; and summer teacher academies for 5-12 grade science teachers. For her mentoring of young students, she received the Presidential Award for Science, Mathematics and Engineering Mentoring (PAESMEM) award in 1999. The most recent project, A TIME for Physics First, focuses on professional development and leadership training for science teachers so they can implement a yearlong course in physics at the 9th grade level. As part of this project, she and a colleague, Dorina Kosztin led the development of Exploring Physics, a digital curriculum for conceptual physics.