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Physics, the study of everything, is a broad but specific subjext. If you want to learn about everything, study physics. In the first semester, mathematics is emphasized while in the second semester, concepts and principles are more important. Though in subjects, you'll still have to do both. But, don't fear, as Einstein once said:
"Imagination is more important than knowledge. Knowledge is limited. Imagination encircles the world."
Physics, the study of everything, is a broad but specific subjext. If you want to learn about everything, study physics. In the first semester, mathematics is emphasized while in the second semester, concepts and principles are more important. Though in subjects, you'll still have to do both. But, don't fear, as Einstein once said:
"Imagination is more important than knowledge. Knowledge is limited. Imagination encircles the world."
General Physics 1
General Physics 1
1. Units
2. Physical Quantities
3. Measurement
4. Graphical Presentation
5. Linear Fitting of Data
Vectors
Kinematics: Motion Along a Straight Line
Kinematics: Motion in 2-Dimensions and 3-Dimensions
Newton’s Laws of Motion and Applications
Work, Energy, and Energy Conservation
Center of Mass, Momentum, Impulse, and Collisions
Rotational equilibrium and rotational dynamics
Gravity
General Physics 2
General Physics 2
Periodic Motion
Mechanical Waves and Sound
Fluid Mechanics
1. Specific gravity
2. Pressure
3. Pressure vs. Depth Relation
4. Pascal’s principle
5. Buoyancy and Archimedes’ Principle
6. Continuity equation
7. Bernoulli’s principle
Temperature and Heat
1. Zeroth law of thermodynamics and Temperature measurement
2. Thermal expansion
3. Heat and heat capacity
4. Calorimetry
Ideal Gases and the Laws of Thermodynamics
1. Ideal gas law
2. Internal energy of an ideal gas
3. Heat capacity of an ideal gas
4. Thermodynamic systems
5. Work done during volume changes
6. 1st law of thermodynamics
Thermodynamic processes: adiabatic, isothermal, isobaric, isochoric
Electric Charge, Coulomb’s Law, Electric Fields, and Electric Flux
Electric Potential
Capacitance and Dielectrics
Current, Resistance, and Electromotive force
Direct-Current Circuits
Force due to Magnetic Fields and Sources of Magnetic Fields
Integration of Electrostatic, Magnetostatics, and Electric Circuits Concepts
Magnetic Induction, Inductance, AC, and LC Circuits
Light as an Electromagnetic Wave
Geometric optics
Interference and diffraction
Relativity
Atomic and Nuclear Phenomena
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