Video Fisika

Science Channel – Sci-Fi Science: Physics of the Impossible (2010)

Menjelajahi dunia tampaknya tidak mungkin terjadi seperti yang terjadi pada film yang bergendre SCI-FI. Fisikawan internasional yang terkenal, Dr Michio Kaku, memberikan gagasan bahwa fiksi ilmiah (SCI-FI) mungkin tidak begitu jauh dari fakta ilmiah, seperti jubah tembus pandang, teleportasi, waktu perjalanan dan banyak lagi. Berikut video yang menjelaskan gagasan ini, meliputi :

1. Penjelajahan alam semesta
2. Perjalanan ke alam semesta paralel
3. Peristiwa peledakkan planet
4. Peristiwa Teleportasi
5. Peristiwa Jubah tak terlihat
6. Perjalanan melewati ruang waktu
7. Membuat pesawat ruang angkasa
8. Membuat pedang cahaya
9. Membuat robot
10. Menjadi superhero
11. Membuat piring terbang

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Video Kuliah Fisika MIT (Massachusetts Institute of Technology)

Bagi yang suka kuliah online, MIT (Massachusetts Institute of Technology) menawarkan kegiatan belajar kuliah secara online dan video kuliah yang diunggah bebas. Banyak sekali bidang ilmu yang ditawarkan. Lumayan menambah ilmu daru universitas papan atas di dunia. Ilmu memang baik bagi kemaslahatan masyarakat dunia, demi dunia yang lebih baik. Sebagai tambahan, Institut Teknologi Massachusetts (Massachusetts Institute of Technology atau MIT), adalah institusi riset swasta dan universitas yang terletak di kota Cambridge, Massachusetts tepat di seberang Sungai Charles dari distrik Back Bay di Boston, Amerika Serikat. MIT memiliki 5 sekolah dan satu kolese, mencakup 32 departemen yang mengkhususkan diri pada sains dan penelitian teknologi. MIT saat ini menenpati posisi rangking 1 universitas top dunia (lihat : http://www.webometrics.info/top12000.asp). Sejumlah 76 pemenang hadiah Nobel adalah alumni MIT dan 33.600 perusahaan berhasil diluncurkan berkat MIT.

Berikut Video kuliah dari MIT oleh Prof. Walter Lewin :

 

Course Introduction

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1: Units, Dimensions, and Scaling Arguments

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2: Introduction to Kinematics

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3: Vectors

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4: The Motion of Projectiles

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5: Uniform Circular Motion

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6: Newton’s First, Second, and Third Laws

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7: Weight, Perceived Gravity, and Weightlessnes

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8: Frictional Forces

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9: Review of Lectures 1 through 5

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 10: Hooke’s Law, Simple Harmonic Oscillator

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11: Work, Energy, and Universal Gravitation

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12: Resistive Forces

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13: Equation of Motion for Simple Harmonic Oscillators

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14: Orbits and Escape Velocity

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15: Momentum and its Conservation

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16: Elastic and Inelastic Collisions

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17: Momentum of Individual Objects

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18: Review of Lectures 6 through 15

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19: Rotating Rigid Bodies, Inertia, and Axis Theorems

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20: Angular Momentum

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21: Torque

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22: Kepler’s Laws, Elliptical Orbits, and Change of Orbits

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23: Doppler Effect, Binary Stars, Neutron Stars and Black Holes

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24: Rolling Motion, Gyroscopes

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 25: Static Equilibrium, Stability, Rope Walker

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26: Elasticity and Young’s Modulus

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27: Gases and Incompressible Liquids

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28: Hydrostatics, Archimedes’ Principle, and Fluid Dynamics

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29: Review of Lectures 16 through 24

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30: Simple Harmonic Oscillations of Suspended Solid Bodies

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31: Pendulums and Springs

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32: Thermal Expansion

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33: Ideal-Gas Law

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34: Heisenberg’s Uncertainty Principle

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35: Professor Lewin’s Early days at MIT

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