Name: جزوه خودآموز فیزیک TOLC - آموزشگاه علمی میرابی
SKU: tolc-phys-notes
Price: 590000 IRT
Availability: InStock

توضیحات

جزوه خودآموز فیزیک TOLC

مولف و تهیه کننده این جزوه آقای دکتر عماد میرابی است.

این جزوه شامل آموزش همه سرفصلهای فیزیک آزمون tolcF و فیزیک بخش علوم tolcI خواهد بود به همراه حل نمونه سوالات در هر بخش

سرفصل های فیزیک زیر در این جزوه آموزش داده خواهد شد :

Physics

Mechanics
the understanding and knowledge of the following topics and concepts is required: scalar and vector quantity, measurement of physical volumes and measurement unit system; definitions of the fundamental physical volumes (displacement, velocity, acceleration, mass, momentum, force, weight, work and power); Newton’s first law, Newton’s law of universal gravitation and Newton’s third law, fluid mechanics
Optics
principles of geometric optics; reflection, refraction; refractive index; prisms; mirrors and concave and convex lenses; elementary knowledge of lens systems and instruments
Thermodynamics
the understanding and knowledge of the following concepts is required: temperature, heat, specific heat, expansion, ideal gas law. Also required elementary knowledge of the laws of thermodynamics
Electromagnetism
elementary knowledge of electrostatics (Coulomb’s law, electrostatic field and condensers) and magnetostatics (electric intensity, Ohm’s law, magnetostatic field) is required. Also required, elementary knowledge of electromagnetic radiations and their propagation
Measurements:
Ability to formalize and quantify phenomena with a scientific approach. Ability to observe physical phenomena in everyday life and relate them to acquired knowledge. Direct and indirect measurements. Fundamental and derived quantities. Physical dimensions of quantities. Dimensionless quantities, angles, vector quantities. Units of measurement, systems of units (CGS, International). Names and relationships between fundamental and derived units. Order of magnitude, multiples and submultiples (names and values). Conversions between units of measurement. Experimental uncertainties, compatibility between measurements. Significant digits. Approximation and truncation. Scientific notation. Arithmetic mean. Relative and absolute errors. Experimental sensitivity. Precision and accuracy of measurements. Representation of results. Scaling laws, direct and inverse proportionality.
Kinematics and vector dynamics
and operations on vectors. Kinematic quantities: displacement, velocity, and acceleration (average and instantaneous, scalar and vector). Description of motion in space (trajectory) and time (time equation). Various motions, with particular emphasis on uniform rectilinear motion, uniformly accelerated motion, and uniform circular motion. [For all motions: definition and relationships between related kinematic quantities, graphical representation]. Concepts of frequency and period.
Forces
: The concept of mass. The concept of force. The three laws of dynamics. Vector composition of forces, resultant. Law of universal gravitation and gravitational acceleration. The concept of weight. Other examples of forces: friction, spring, and electric. Vector composition of forces, resultant. Work. Kinetic energy. Conservative forces and potential energies. Principle of conservation of mechanical energy. The concept of momentum.
Fluid mechanics:
states of matter. Fluids. Density. Pressure and its units (not only in the SI system). Stevin’s law. Pascal’s principle. Hydrostatic buoyancy (Archimedes’ principle). Flow, rate of flow. Conservation of energy for fluids in motion.
Thermology, kinetic theory of gases, thermodynamics,
temperature, thermal equilibrium (zeroth law). Thermometric scales. Gases and ideal gases. Mole, Avogadro’s number, atomic mass. Internal energy of monatomic gases. Heat. Specific heat, heat capacity. Changes of state and latent heats. Kinetic theory of gases. Concept of equation of state, gas laws, and equation of state for ideal gases. Adiabatic, isochore, isobaric, and isothermal processes. First, second, and third laws of thermodynamics. Definition of entropy. State functions. Thermal expansion. Mechanisms of heat transfer: conduction, convection, and radiation. The Joule effect.
Electrostatics, electric currents, magnetism,
electric charge, induction. Coulomb’s law. Concept of an electric field. Direct current. Electric potential, electrical resistance, resistivity, Ohm’s law. Magnetic phenomena. Magnetic dipole. Concept of a magnetic field. Magnetic field produced by an infinitely long current-carrying wire. Lorenz force. Faraday-Lenz law and induced currents.
Wave phenomena, geometric optics,
general characteristics of waves, wavelength. Wave propagation (qualitatively), speed. Types of waves. Interference and diffraction phenomena. Sound waves. Notes on electromagnetic waves and the nature of light. Spectrum of light, dispersion. Reflection, refraction. Total reflection. Optical path. Mirrors. Diopters. Thin lenses. Optical focus. Images. Magnification.

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