Remember: you must be logged
on into YouTube in order to access these lectures, except those
signaled in green, which are free.
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Very easy to attend online, if
you are an YouTube user. Simply send me your username after combining
by email, and I will give you direct access to the diciplines you
want.
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M o n t h (1) :
Chose the week or month you want and contact [email protected]
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M o n t h (2)
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M o n t h (3)
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M o n t h (4)
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Notice:
This was my first experiment on creating a discipline for the web. I
hope the mix of English and Portuguese in the first part of it will be
minimally understandable for you...
Notice-2: these lectures have started to be created in March 2012, under the intense spray of geo-engineering
in our skies, an activitywhich
affects the health of a large number of people, and was also affecting
my health. One of the main scientists of geoengineering expects
1.000.000 lives/year eliminated by such practise. Here.
Lecture
001 - (p1): Measuring,
units and systems of measure.
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Short breath,
running nose, heavy sensation of dizziness, as being constantly infected by a
virus, coldness, lack of concentration, mind blocked, were some of the
symptoms affecting us.
Our
hospitals have registered an exceptional rise in the thousands in the
number of people dying during March 2012. Less resistant people of
course cannot survive to such conditions of aggression. You may read
more about the
spray of our skies in these articles: article; article; article
Lecture 001 - (p2):
Measuring, units and systems of measure.
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I insist it
is time to rise the question on how such an activity is silently taking the life of thousands of persons worldwide.
Many people talk and complain about this. Mainstream news, however, don't.
Beck wrote this music
about it.
Hope you enjoy learning the basics of Physics, anyhow.
Thank you.
Lecture 001 - (p3):
Measuring, units and systems of measure. (not
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*Lecture 001 - (p4): Measuring,
units and systems of measure. (free)
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Lecture 002 - (p1): Converting
between units, Dimensional Analysis.
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Lecture 002 - (p2): Converting
between units, Dimensional Analysis.
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Lecture 002 - (p3): Dimensional
Analysis, some exercises.
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Lecture 002 - (p4): Some
bases for the manipulation of equations.
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Lecture
003 - (p1): Introduction to
Trigonometry, and its basis.
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Lecture
003 - (p2): Introduction to Trigonometry, Euler's formula.
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Lecture
003 - (p3): Introduction to
Trigonometry, inverse functions.
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Lecture
003 - (p4): Introduction to
Trigonometry, pendulum example.
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Lecture
004 - (p1): Scalars and vectors;
basic operations with vectores; addition.
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*Lecture
004 - (p2): Operations with
vectors; dot and vectorial products. |
Lecture
004 - (p3): Operations with several vectors,
addition examples.
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Lecture
004 - (p4): Dot and vectorial
product examples, and more...
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Lecture
005 - (p1): Cartesian coordinates
system, 3D vectors.
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Lecture
005 - (p2): Basic operations with
3D vectores; adding and scalling. |
Lecture
005 - (p3): Dot product in 3D
cartesian coordinates, examples. |
Lecture
005 - (p4): Vectorial product in
3D cartesian coordinates, examples.
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Lecture
006 - (p1): Exercising operations
with 3D basic physics. (/?)
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Lecture
006 - (p2): Exercising operations
with 3D basic physics. |
Lecture
006 - (p3): Exercising
operations with 3D basic physics.
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Lecture
006 - (p4): Exercising operations
with 3D basic physics. |
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Lecture
007 - (p1): On differential
calculus: limits, functions, derivatives... |
Lecture
007 - (p2): On differential
calculus: limits, functions, derivatives... |
Lecture
007 - (p3): On differential
calculus: derivative, integral... |
Lecture
007 - (p4): On differential
calculus: derivative, integral. (/?) |
Lecture
008 - (p1): A liitle bit on averages and standard
deviations.
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*Lecture
008 - (p2): A liitle bit on
averages and standard deviations...
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Lecture
008 - (p3):
Assessment Test(1), first part.
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Lecture
008 - (p4):
Assessment Test(1), second part.
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M o n t h (1) : |
M o n t h (2) :
Chose the weeks you want and contact [email protected]
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M o n t h (3) |
M o n t h (4) |
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Lecture
009 - (p1): Resolution of the
Assessment Test(1), first part.
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Lecture
009 - (p2): Resolution of the
Assessment Test(1), second part.
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Lecture
009 - (p3): Kinematics
and dynamics. From Avicena to Galileo.
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Lecture
009 - (p4): Newton's perspective
of motion, and its laws.
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*Lecture
010 - (p1): Newton
principles, and various kinds of forces. |
Lecture
010 - (p2): Validity
of Newton's model. Inertial referential frame.
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Lecture
010 - (p3): The Second Law of
Newton, in its general form (/?).
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Lecture
010 - (p4): The conservation of
linear momentum, elastic collisions.
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Lecture
011 - (p1): Elastic
collisions, an example of a simplisitic traffic crash. |
Lecture
011 - (p2): Elastic
colisions, another example based on 3 cars. |
Lecture
011 - (p3): Elastic
collisions, another resolution for the previous case. |
Lecture
011 - (p4): Using
conservation of momentum in non-elastic collisions. |
Lecture
012 - (p1): Internal
and external forces. Motion under non null forces.
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Lecture
012 - (p2): General
motion under no null constant forces. |
Lecture
012 - (p3): Motion
under constant forces. The projectile. |
*Lecture
012 - (p4): Motion
under constant forces. inclined plane.
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Lecture
013 - (p1): Simplifying
the inclined plane. Force diagrams.
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Lecture
013 - (p2): Motion
under non constant forces. The pendulum (1).
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Lecture
013 - (p3): Motion
under non constant forces. The pendulum (2).
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Lecture
013 - (p4): Motion
under constant forces. A 3D example. |
Lecture
014 - (p1): Concept
of work of a force. Introduction to gravitation. |
*Lecture
014 - (p2): Gravitational
force and the concept of gravitational field. |
Lecture
014 - (p3): General
work in the gravitational field; potential energy. |
Lecture
014 - (p4): Work in
the gravitational field; exchange of energy.
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Lecture
015 - (p1): Gravitational
hole; Total energy and escape velocity. |
Lecture
015 - (p2): Concept
of mechanical energy, exercises.
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Lecture
015 - (p3): Potential energy exercise. METEOSAT
example (/?).
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Lecture
015 - (p4): Potential
energy; at METEOSAT and Earth's surface (1) (/?).
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Lecture
016 - (p1): Potential
energy; at METEOSAT and Earth's surface (2). |
Lecture
016 - (p2): Huygens'
and Newton's forces. The orbiting condition. |
Lecture
016 - (p3):
Assessment Test(2), first part. |
Lecture
016 - (p4):
Assessment Test(2), second part. |
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M o n t h (1) |
M o n t h (2) |
M o n t h (3) :
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M o n t h (4) |
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Lecture
017 - (p1): Resolution of the
Assessment Test(2), first part.
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Lecture
017 - (p2): Resolution of the
Assessment Test(2), second part.
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Lecture
017 - (p3): Gravitational field,
example of the period ot the Moon.
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Lecture
017 - (p4): Similarity between
gravitational and electric fields. |
Lecture
018 - (p1): Kinematics and
dynamics of the circular motion. |
Lecture
018 - (p2): Kinematics and
dynamics of the circular motion (/?). |
Lecture
018 - (p3): Kinematics and
dynamics of the circular motion (/?). |
*Lecture
018 - (p4): Moment
of a vector. My thoughts about Huygen's force.
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Lecture
019 - (p1): Non uniforme circular
motion. Vertical circle example.
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Lecture
019 - (p2): Non uniforme circular
motion. Vertical circle example. |
Lecture
019 - (p3): Uniforme circular
motion. The conic pendulum |
Lecture
019 - (p4): Uniforme circular
motion. About coefficient of friction. |
Lecture
020 - (p1): Motion of a system of
particles. Center of mass (CM), etc...
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*Lecture
020 - (p2): Motion
of a system of particles. Force, Torque, etc... |
Lecture
020 - (p3): Motion of a system of
particles. Little example. |
Lecture
020 - (p4): Motion of a system of
particles. Little example (cont). |
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Lecture
021 - (p1): System of
particles. Angular momentum and the CM.
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Lecture
021 - (p2): System of
particles (cont.). Torque of a binary.
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Lecture
021 - (p3): System of
particles (cont.). Equilibrium conditions.
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Lecture
021 - (p4): System of
particles, rigid body. Moments of inertia...
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Lecture
022 - (p1): Some cases of rigid bodies, and moments of inertia (/?).
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Lecture
022 - (p2): Similarity between linear and angular motion.
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Lecture
022 - (p3): Oscillations and the simple harmonic oscillator.
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Lecture
022 - (p4): An illustrative example of equilibrium.
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Lecture
023 - (p1): Analysis of a case of a rigid body in circular motion (1).
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Lecture
023 - (p2): Analysis of a case of a rigid body in circular motion (2).
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Lecture
023 - (p3): Analysis of a case of a rigid body in circular motion. Torque?
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Lecture
023 - (p4): Torque in oscilations; work, rotational energy. |
Lecture
024 - (p1): Wave: an oscillation propagating in the space (1).
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*Lecture
024 - (p2): Wave: an oscillation propagating in the space (2).
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Lecture
024 - (p3):
Assessment Test(3), first part.
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Lecture
024 - (p4):
Assessment Test(3), second part.
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M o n t h (1) |
M o n t h (2) |
M o n t h (3) |
M o n t h (4) :
Chose the weeks you want and contact [email protected]
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Lecture
025 - (p1): Resolution of the
Assessment Test(3), first part.
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Lecture
025 - (p2): Resolution of the
Assessment Test(3), second part.
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Lecture
025 - (p3): Vectorial wave, equation of motion. Polarization (/?). |
Lecture
025 - (p4): Vectorial wave, equation of motion. Example. |
*Lecture
026 - (p1): About the energy and the Intensity of a wave (1). |
Lecture
026 - (p2): About the energy and the Intensity of a wave (2).
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Lecture
026 - (p3): Waves of amplitude and frequency modulation (/?). |
Lecture
026 - (p4): The basic equation of a standing wave (/?). |
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Lecture
027 - (p1): Modes of vibration. Ressonance. Waves and media. |
Lecture
027 - (p2): Wave interference. Phase and path differences,
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Lecture
027 - (p3): Interference and diffraction of waves. |
Lecture
027 - (p4): Snell-Descartes law for refraction at an interface.
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Lecture
028 - (p1): Find the wave equation of a De Broglie partticle (1).
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Lecture
028 - (p2): Find the wave equation of a De Broglie partticle (2). |
Lecture
028 - (p3): Find critical angles; Compare light/particle wavelenghts. |
*Lecture
028 - (p4): Traffic in a bridge; Could we provoke Earthquakes? |
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Lecture
029 - (p1): Energy and Temperature (1). Hot and cold.
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Lecture
029 - (p2): Energy and Temperature (2). Concepts and models.
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Lecture
029 - (p3): Temperature, Internal energy, work and heat flow.
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*Lecture
029 - (p4): Some examples of thermodynamic systems. |
Lecture
030 - (p1): Some more on thermodynamics. |
Lecture
030 - (p2): The basis of Electromagnetism (1). |
Lecture
030 - (p3): The basis of Electromagnetism (2). |
Lecture
030 - (p4): The basis of Electromagnetism (3). |
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*Lecture
031 - (p1): More on Electromagnetism. The last lecture. |
Lecture
031 - (p2): (30-minutes)
Final Examination, part(1). |
Lecture
031 - (p3): (30 minutes)
Final Examination, part(2). |
Lecture
031 - (p4): (30 minutes)
Final Examination, part(3). |
Lecture
032 - (p1): (30 minutes)
Final Examination, part(4).
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Lecture
032 - (p2): (30 minutes)
Final Examination, part(5).
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