From Lettera di Francesco Maggiotto pittore, ed accademico della pubblica Accademia di pittura, scultura, ed architettura di Venezia, e della Clementina di Bologna all'illustre professore nell'Università di Padova il signor abate Giuseppe Toaldo, sopra una nuova costruzione di macchina elettrica, 1781, p. 10 https://books.google.it/books?id=wRdqZqL8jcIC&hl=it&pg=PR10#v=onepage&q&f=false.
Source: On Becoming a Person: A Therapist's View of Psychotherapy
“We write as we feel, as we think, with our entire body.”
Le Problème du Style (1902)
On why Democrats didn't codify Roe vs Wade, in an interview with CBS https://www.cbsnews.com/news/kamala-harris-roe-v-wade-settled-law/
2022, July 2022
As quoted by Walter Kaufmann, "The Development of the Electron Idea" (Nov. 8, 1901) The Electrician Vol. 48 https://books.google.com/books?id=owxRAAAAYAAJ pp. 95-97. Lecture delivered before the 73rd Naturforscher Versammlung at Hamburg. From the Physikalische Zeitshrift, of October 1, 1901.
A Treatise on Electricity and Magnetism (1873), §36.
1860s, Allow the humblest man an equal chance (1860)
“I think we should not be interested in prizes, we should be interested in learning about nature.”
Interview with the 1988 Nobel Laureate in Physics, Jack Steinberger, at the 58th Meeting of Nobel Laureates in Lindau, Germany, July 2008.
Context: The pretention that some of us are better than others, I don't think is a very good thing. And who is contributing what to our progress in science is not so obvious and many who don't get that Nobel Prize are better than people than some of us that do get the Nobel Prize. … I think we should not be interested in prizes, we should be interested in learning about nature.
“It is in the body politic, as in the natural, those disorders are most dangerous that flow from the head.”
Utque in corporibus sic in imperio gravissimus est morbus, qui a capite diffunditur.
Letter 22, 7.
Letters, Book IV
Mathematical Methods in Science (1977)
Context: Life is full of surprises: our approximate condition for the fall of a body through a resisting medium is precisely analogous to the exact condition for the flow of an electric current through a resisting wire [of an induction coil]....
m\frac {dv}{dt} = mg - Kv
This is the form most convenient for making an analogy with the "fall", i. e., flow, of an electric current.
... in order from left to right, mass m, rate of change of velocity \frac {dv}{dt}, gravitational force mg, and velocity v. What are the electrical counterparts?... To press the switch, to allow current to start flowing is the analogue of opening the fingers, to allow the body to start falling. The fall of the body is caused by the force mg due to gravity; the flow of the current is caused by the electromotive force or tension E due to the battery. The falling body has to overcome the frictional resistance of the air; the flowing current has to overcome the electrical resistance of the wire. Air resistance is proportional to the body's velocity v; electrical resistance is proportional to the current i. And consequently rate of change of velocity \frac {dv}{dt} corresponds to rate of change of current \frac {di}{dt}.... The electromagnetic induction L opposes the change of current... And doesn't the inertia or mass m..? Isn't L, so to speak, an electromagnetic inertia?
L\frac {di}{dt} = E - Ki
