123,162 research outputs found
T. M. P. Mahadevan. Gaudapada, a study in early Advaita
Filliozat Jean. T. M. P. Mahadevan. Gaudapada, a study in early Advaita. In: Revue de l'histoire des religions, tome 142, n°2, 1952. p. 246
K. Mahadevan (ed), Fertility Policies of Asian Countries
Raulot J. Y. K. Mahadevan (ed), Fertility Policies of Asian Countries. In: Tiers-Monde, tome 30, n°119, 1989. L'Inde : libéralisation et enjeux sociaux, sous la direction de Bernadette Madeuf et Philippe Cadène. pp. 718-719
Essays in Philosophy presented to Dr T. M. P. Mahadevan on his fiftieth Birthday
Bareau André. Essays in Philosophy presented to Dr T. M. P. Mahadevan on his fiftieth Birthday. In: Revue de l'histoire des religions, tome 166, n°1, 1964. p. 76
Not Available
Not AvailableIN a recent communication (Mahadevan 1959) attention was drawn to an interesting
association of the pearl fish Fierasfer homei (Richardson) with the wing mussel Pteria
sp., * * found in the Gulf of Mannar off Tuticorin. A re -examination of the pearl
fish showed that the position of the vent is at the base of a line just behind pectoral
origin and the origin of the dorsal is in a line above the middle of pectoral (Plate,
1, Fig. C). Further, other distinguishing characters of this fish described elsewhere
in this account justified the earlier doubts (Mahadevan op. cit.) of the likelihood
of its coming under Carapus (syn : Fierasfer) margaritiferae (Rendahl), a brief
account of which is given by de Beaufort (1951) based on specimens collected from
Pulu Punga, Pulu Missa, coast of Flores and Cape Jaubert N. W. Australia, mostly
in association with the wing mussel or sometimes with a holothurian. Smith (1955),
while reviewing the family Carapidae has mentioned the occurrence of C margaritiferae
in South African waters also where three specimens, 75 -93 mm. in length, were
' taken from inside clams at Durban.' The data on two specimens of 63.5 and 85.0
mm. examined by the present author indicate differences in some of the characteristics
as compared with the South African form described by Smith. In order to facilitate
comparison of the Indian form with others occurring elsewhere a detailed
description of the material in hand is given below.Not Availabl
The Pearl fish Carapus margaritiferae (Rendahl), a new record for the Indian waters
IN a recent communication (Mahadevan 1959) attention was drawn to an interesting
association of the pearl fish Fierasfer homei (Richardson) with the wing mussel Pteria
sp.,** found in the Gulf of Mannar off Tuticorin. A re-examination of the pearl
fish showed that the position of the vent is at the base of a line just behind pectoral
origin and the origin of the dorsal is in a line above the middle of pectoral (Plate,
1, Fig. C). Further, other distinguishing characters of this fish described elsewhere
in this account justified the earlier doubts (Mahadevan op. cit.) of the likelihood
of its coming under Carapus (syn : Fierasfer) margaritiferae (Rendahl), a brief
account of which is given by de Beaufort (1951) based on specimens collected from
Pulu Punga, Pulu Missa, coast of Flores and Cape Jaubert N. W. Australia, mostly
in association with the wing mussel or sometimes with a holothurian. Smith (1955),
while reviewing the family Carapidae has mentioned the occurrence of C margaritiferae
in South African waters also where three specimens, 75-93 mm. in length, were
' taken from inside clams at Durban.' The data on two specimens of 63.5 and 85.0
mm. examined by the present author indicate differences in some of the characteristics
as compared with the South African form described by Smith. In order to facilitate
comparison of the Indian form with others occurring elsewhere a detailed
description of the material in hand is given below
figure3_A
This data is made available to support the paper “Optimal Geocentric/Egocentric Switching Strategies in Navigation”, by Orit Peleg and L. Mahadevan, John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts 02138,USA
Data description, corresponding to the manuscript’s figures:
% figure3_A.txt N, , reorientation interval , cost $f
figure3_B
This data is made available to support the paper “Optimal Geocentric/Egocentric Switching Strategies in Navigation”, by Orit Peleg and L. Mahadevan, John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts 02138,USA
Data description, corresponding to the manuscript’s figures:
% figure3_B.txt N, , n^{opt
figure4_A
This data is made available to support the paper “Optimal Geocentric/Egocentric Switching Strategies in Navigation”, by Orit Peleg and L. Mahadevan, John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, Massachusetts 02138,USA
Data description, corresponding to the manuscript’s figures:
% figure4_A.txt and figure4_B.txt , theta^, penalty A\theta^, detection_error, Optimal estimated , optimal attention span $\tau
Just a few lines from my memory
Gulf of Mannar, My Friend
A sliver stream pass the waters offshore
gilt with sunbeam all over
on whose enamelled waters I dived
and saw how prettily the denizens moved and lived
and how sweetly they moved and bred still
Oh! my friend Mannar gulf
still I adore you
though eighteen years past since I bade thee good-bye
Marine Zoology, Mandapam Camp, Mannar Gulf and Mahadevan
Place-New Delhi, event UPSC selection in 1959 for Marine Zoologist
post in CMFRI-
I was leaving the hall after interview. An attendant emerging fro
Flow-driven branching in a frangible porous medium
© The Author(s), 2020. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Derr, N. J., Fronk, D. C., Weber, C. A., Mahadevan, A., Rycroft, C. H., & Mahadevan, L. Flow-driven branching in a frangible porous medium. Physical Review Letters, 125(15), (2020): 158002, doi:10.1103/PhysRevLett.125.158002.Channel formation and branching is widely seen in physical systems where movement of fluid through a porous structure causes the spatiotemporal evolution of the medium. We provide a simple theoretical framework that embodies this feedback mechanism in a multiphase model for flow through a frangible porous medium with a dynamic permeability. Numerical simulations of the model show the emergence of branched networks whose topology is determined by the geometry of external flow forcing. This allows us to delineate the conditions under which splitting and/or coalescing branched network formation is favored, with potential implications for both understanding and controlling branching in soft frangible media.N. D. was partially supported by the NSF-Simons Center for Mathematical and Statistical Analysis of Biology at Harvard, Grant No. 1764269, and the Harvard Quantitative Biology Initiative. C. H. R. and N. D. were partially supported by the National Science Foundation under Grant No. DMS-1753203. C. H. R. was partially supported by the Applied Mathematics Program of the U.S. DOE Office of Science Advanced Scientific Computing Research under Contract No. DE-AC02-05CH11231. L. M. was partially supported by the National Science Foundation under Grants No. DMR-2011754 and No. DMR-1922321
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