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1.
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Millikan’s Experiment Takes the Next Step
David Harris
Physics 5, 3 (2012)
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2.
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Transient reduction of the drag coefficient of charged droplets via the convective reversal of stagnant caps
Brad S. Hamlin, William D. Ristenpart
Physics of Fluids
24,
012101
(2012)
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3.
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The electric vocabulary
James Sheils
Physics Education
47,
78
(2012)
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4.
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Electron binding energies from collisional activation of metal-cluster dianions
A. Herlert, L. Schweikhard
Applied Physics B
,
(2011)
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5.
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Manipulation of confined bubbles in a thin microchannel: Drag and acoustic Bjerknes forces
David Rabaud, Pierre Thibault, Jan-Paul Raven, Olivier Hugon, Eric Lacot, Philippe Marmottant
Physics of Fluids
23,
042003
(2011)
|
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6.
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Paper spray ionization of polar analytes using non-polar solvents
Anyin Li, He Wang, Zheng Ouyang, R. Graham Cooks
Chemical Communications
47,
2811
(2011)
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7.
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Writing a Scientific Paper III. Ethical Aspects
C. Sterken
EAS Publications Series
50,
173
(2011)
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8.
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Black hole levitron
Xerxes D. Arsiwalla and Erik P. Verlinde
Phys. Rev. D 81, 084004 (2010)
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9.
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The University and the Responsible Conduct of Research: Who is Responsible for What?
Katherine Alfredo, Hillary Hart
Science and Engineering Ethics
,
(2010)
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10.
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Teaching the Nature of Science Through the Millikan-Ehrenhaft Dispute
Eleni Paraskevopoulou, Dimitris Koliopoulos
Science & Education
,
(2010)
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11.
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Reconstruction of the history of the photoelectric effect and its implications for general physics textbooks
Mansoor Niaz, Stephen Klassen, Barbara McMillan, Don Metz
Science Education
94,
903
(2010)
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12.
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Identifying and Addressing Student Difficulties with the Millikan Oil Drop Experiment
Stephen Klassen
Science & Education
,
(2009)
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13.
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The measurement of charge for induction-based fluidic MALDI dispense event and nanoliter volume verification in real time
Brent Hilker, Kevin J. Clifford, Andrew D. Sauter, Andrew D. Sauter, Julie P. Harmon
Journal of the American Society for Mass Spectrometry
20,
1064
(2009)
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14.
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CAN TiO EXPLAIN THERMAL INVERSIONS IN THE UPPER ATMOSPHERES OF IRRADIATED GIANT PLANETS?
David S. Spiegel, Katie Silverio, Adam Burrows
The Astrophysical Journal
699,
1487
(2009)
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15.
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Evaporative self-assembly assisted synthesis of polymeric nanoparticles by surface acoustic wave atomization
James R Friend, Leslie Y Yeo, Dian R Arifin, Adam Mechler
Nanotechnology
19,
145301
(2008)
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16.
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A Rationale for Mixed Methods (Integrative) Research Programmes in Education
MANSOOR NIAZ
Journal of Philosophy of Education
42,
287
(2008)
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17.
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Limit speed of particles in a non-homogeneous electric field under friction
A Díaz-Cano, F González-Gascón
Journal of Physics A Mathematical and Theoretical
40,
15029
(2007)
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18.
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Remembering the Oil-Drop Experiment
Michael F. Perry
Physics Today
60,
56
(2007)
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19.
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A selected history of expectation bias in physics
Monwhea Jeng
American Journal of Physics
74,
578
(2006)
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20.
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The Oil Drop Experiment: Do Physical Chemistry Textbooks Refer to its Controversial Nature?
Mansoor Niaz, María A. Rodríguez
Science & Education
14,
43
(2005)
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21.
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Data selection and responsible conduct: Was millikan a fraud?
Richard C. Jennings
Science and Engineering Ethics
10,
639
(2004)
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22.
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On-chip manipulation of levitated femtodroplets
I. F. Lyuksyutov, D. G. Naugle, K. D. D. Rathnayaka
Applied Physics Letters
85,
1817
(2004)
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23.
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Radiation pressure and gas drag forces on a melamine-formaldehyde microsphere in a dusty plasma
Bin Liu, J. Goree, V. Nosenko, L. Boufendi
Physics of Plasmas
10,
9
(2003)
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24.
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No title available
Mansoor Niaz, María A Rodríguez
Physics Education
37,
59
(2002)
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25.
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The Oil Drop Experiment: A Rational Reconstruction of the Millikan-Ehrenhaft Controversy and Its Implications for Chemistry Textbooks
Mansoor Niaz
Journal of Research in Science Teaching
37,
480
(2000)
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