DESTINASI FISIKA

info penting materi dan soal-soal fisika

Home » , » Kumpulan Buku Fisika dan Astronomi (OSN)

Kumpulan Buku Fisika dan Astronomi (OSN)

No comments
Cuplikan literasi David Morin : Static friction deals with two objects at rest relative to each other. In the static case, we have F ≤ µsN (where µs is the “coefficient of static friction”). Note the inequality sign. All we can say prior to solving a problem is that the static friction force has a maximum value equal to Fmax = µsN. In a given problem, it is most likely less than this. For example, if a block of large mass M sits on a surface with coefficient of friction µs, and you give the block a tiny push to the right (tiny enough so that it doesn’t move), then the friction force is of course not equal to µsN = µsMg to the left. Such a force would send the block sailing off to the left. The true friction force is simply equal and opposite to the tiny force you apply. What the coefficient µs tells us is that if you apply a force larger than µsMg (the maximum friction force on a horizontal table), then the block will end up moving to the right.
Oscillations
Copyright 2004 by David Morin, morin@physics.harvard.edu In this chapter we will discuss oscillatory motion. The simplest examples of such motion are a swinging pendulum and a mass on a spring, but it is possible to make a system more complicated by introducing a damping force and/or an external driving force. We will study all of these cases. We are interested in oscillatory motion for two reasons. First, we study it because we can study it. This is one of the few systems in physics where we can solve the motion exactly. There’s nothing wrong with looking under the lamppost every now and then. Second, oscillatory motion is ubiquitous in nature, for reasons that will become clear in Section 4.2. If there was ever a type of physical system worthy of study, this is it. We’ll jump right into some math in Section 3.1. And then in Section 3.2 we’ll show how the math is applied to the physics.

Berikut di bawah ini adalah keseluruhan Buku Fisika dan Astronomi :
A.R. King and O Regev-Physics with answers 500 problems and solutions [klik]
Ahmad A Kamal-1000 Solved Problems in Classical Physics An Exercise Book [klik]
 Ahmad A Kamal-1000 Solved Problems in Classical Physics [klik]
 Aplikasi WinDjView-0.5 [klik]
 Astronomi (modul) [klik]
 Astronomy-Fundamental Astronomy [klik]
 Astronomy-A Companion to Astronomy and Astrophysics [klik]
 Astronomy-Astrophysics is Easy [klik]
 Fundamental Astronomy [klik]
 Boris-A Guide to Physics Problems. Part 1 [klik]
 Boris-A Guide to Physics Problems. Part 2 [klik]
 Brainteaser Physics Challenging Physics Puzzlers [klik]
 Buku Pintar Nuklir [klik]
 C. Gignoux-Solved Problems in Lagrangian and Hamiltonian Mechanics [klik]
 Cambrigde-200 puzling physics [klik]
 Cambrigde-200 Puzzling Physics Problems [klik]
 David Morin-Introductory Classical Mechanics with Problems and Solutions [klik]
 David Morin-Problems and Solutions Introduction to Classical Mechanics [klik]
 Fisika_Mekanika-Olimpiade Fisika [klik]
 Fowles-Analytical Mechanics [klik]
 Fowles-Solutions Manual Analytical Mechanics [klik]
 Giancoli - Introduction, Measurement, Estimating [klik]
 Giancoli–Physics [klik]
 Halliday Resnick Walker-Physics and Measurement [klik]
 Irodov Modul Pilihan [klik]
 Irodov-Problems in General Physics [klik]
 Jaan Kalda-Problem of Kinematics [klik]
 Jaan Kalda-Problem of Mechaniks [klik]
 Jagad Raya Tata Surya Dan Bumi [klik]
 Kleppner-An Introduction to Mechanics [klik]
 Krotov-Science for every one [klik]
 Lim Yung huo-Problems and Solutions on Mechanics [klik]
 Mark Levi-The Mathematical Mechanic Using Physical Reasoning to Solve  Problems [klik]
 McMonagle-Physics Science Visual Resouces [klik]
 Mechanics Indonesian [klik]
 Mekanika Yohanes Surya [klik]
 Modul Astronomi ITB [klik]
 Modul Belajar Astronomi [klik]
 Morin ch00 title [klik]
 Morin ch0 Contents Preface [klik]
 Morin ch1 Statistic [klik]
 Morin ch2 Using F=ma [klik]
 Morin ch3 Oscillations [klik]
 Morin ch4 Convertions Energy and Momentum [klik]
 Morin ch5 The Lagrangian Method [klik]
 Morin ch6 Central Forces [klik]
 Morin ch7 Angular Momentum Part 1 (constant L) [klik]
 Morin ch8 Angular Momentum Part 2 (general L) [klik]
 Morin ch9 Accelerated Frames of Reference [klik]
 Morin ch10 Relativity (Kinematics) [klik]
 Morin ch11 Relativity (Dynamics) [klik]
 Morin ch12 4 Vectors [klik]
 Morin ch13 General Relativity [klik]
 Morin ch14 Appendices [klik]
 Omegaleph Institute-Problems of the 1st International Physics Olympiad [klik]
 Paul-The Handy Physics answer Book Second Edition [klik]
 Poseng Than-300 creative physics problems with solution [klik]
 R.A.Serway Physics for Scientists and Engineers [klik]
 Schaum's Outlines-Astronomy [klik]
 Schaum's-Physics Theory and Problems [klik]
 Serway-Physics and Measurement [klik]
 Serway-Physics for Scientists Engineers [klik]
 Singh1-Problems in General Physics [klik]
 Singh2-Problems in General Physics [klik]
 Walter Greiner-Classical Mechanics,Point Particles And Relativity(Theoretical Physics) [klik]
 Yohanes Surya olimpiade [klik]
 Young - University Physics with Modern Physics 12e [klik]
 Young University Physics with Modern Physics [Solutions] [klik]
 Media Presentasi PPT
Alam Semesta [klik]
Asteroid Komet Meteorit [klik]
 Bulan Satelit Bumi [klik]
 Force & Motion-Fundamental Physics [klik]
 Galaksi Kita Dan Gugus Galaksi [klik]
 Inklusi [klik]
 Jagad Raya Tata Surya Dan Bumi [klik]
 Jagad Raya [klik]
 Jovian Satelit [klik]
 Konsepsi Alam Semesta [klik]
 Matahari Sebagai Bintang [klik]
 Motivasi Berprestasi [klik]
 Pelatihan Fisika Olimpiade [klik]
 Pengambangan Mutu Pendidikan [klik]
 Planet Kebumian dan Pluto [klik]
 Presentasi OSN Fisika SMP [klik]
 Teori Belajar [klik]
 Selamat membaca, semoga belajar fisika menjadi lebih mudah dan menyenangkan…
Berikut keseluruhan link terkait :

Share:

No comments:

Post a Comment

VIDEO UPDATE

Kerinci, Jambi Indonesia

Waktu di Kerinci:

Popular Posts

Blog Archive

PERANGKAT-BAHAN AJAR+VIDEO KBM