Fisika Dasar I Fundamental Physics I Program Studi Pendidikan Fisika

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Fisika Dasar I Fundamental Physics I Program Studi Pendidikan Fisika Drs. Ishafit, M.Si. ishafit@pfis.uad.ac.id http://blog.uad.ac.id/hafit_uad UNIVERSITAS AHMAD DAHLAN Program Studi Pendidikan Fisika

Physics

Syllabus Introduction Motion in 1D Vector & 2D Motion The Laws of Motion Energy Momentum & Collisions Rotational Motion & Gravity Rotational Equilibrium & Rotational Dynamics Solids & Fluids Vibration and Waves Sound Thermal Physics Energy in Thermal Physics The Law of Thermodynamics

University Physics Books

Textbooks and Software University Physics Books Raymond A. Serway & John W. Jewett, Physics for Scientists and Engineers. David Halliday, Robert Resnick and Jearl Walker, Fundamentals of Physics Extended. Hugh D. Young, Roger A. Freedman and Lewis Ford, University Physics with Modern Physics with MasteringPhysics Educational Software Physics Education Technology (PhET) Modellus (Modelling Software) Tracker (Video Analysis Software) Encarta Encyclopedia

Concept Map of Mechanics

Heat and Thermodynamics

Sound and Hearing

FISIKA (PHYSICS ) FISIKA adalah ilmu yang tujuannya mempelajari struktur materi dan interaksi antar materi. Objek telaah fisika meliputi materi berukuran makroskopik (orde panjang 109 m dan orde massa 1030 kg) sampai dengan berukuran mikroskopik (orde panjang 10-15 m dan orde massa 10-31 kg).

THE BUILDING BLOCKS OF MATTER

Struktur Materi dan Interaksi Struktur Materi dan Interaksi Mikroskopik Struktur Materi dan Interaksi Makroskopik

Struktur Keilmuan Fisika Kajian Keilmuan Fisika Struktur Materi, Gejala Alam, Sistem Alam, Sistem Rekayasa, dan Interaksi Fundamental Perangkat Pengamatan dan Analisis Elektronika Fisika Matematika Metode Eksperimen Perangkat Keilmuan Fisika Deskripsi Keadaan dan Interaksi, dan Model Interaksi

Struktur Materi Zat Padat Molekul Atom Inti Partikel Elementer

Model Interaksi Interaksi Gravitasi Interaksi Elektromagnetik Interaksi Kuat Interaksi Lemah

Gejala Alam Cahaya Akustik, dll Sistem Alam Bumi Atmosfer

Deskripsi Makroskopik Mekanika Termodinamika Gelombang Deskripsi Mikroskopik Mekanika Kuantum Mekanika Statistik

General Problem-Solving Strategy

General Problem-Solving Strategy Read the problem carefully at least twice. Be sure you understand the nature of the problem before proceeding further. Draw a diagram while rereading the problem. Label all physical quantities in the diagram, using letters that remind you what the quantity is (e.g., m for mass). Choose a coordinate system and label it. Identify physical principles, the knowns and unknowns, and list them. Put circles around the unknowns. Equations, the relationships between the labeled physical quantities, should be written down next. Naturally, the selected equations should be consistent with the physical principles identified in the previous step. Solve the set of equations for the unknown quantities in terms of the known. Do this algebraically, without substituting values until the next step, except where terms are zero. Substitute the known values, together with their units. Obtain a numerical value with units for each unknown. Check your answer. Do the units match? Is the answer reasonable? Does the plus or minus sign make sense? Is your answer consistent with an order of magnitude estimate? This same procedure, with minor variations, should be followed throughout the

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