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Chapter 1 Introduction What is physics? Physics deals with the behavior and composition of matter and its interactions at the most fundamental level. Curiosity.

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Presentation on theme: "Chapter 1 Introduction What is physics? Physics deals with the behavior and composition of matter and its interactions at the most fundamental level. Curiosity."— Presentation transcript:

1 Chapter 1 Introduction What is physics? Physics deals with the behavior and composition of matter and its interactions at the most fundamental level. Curiosity to understand and describe the nature

2 Key contents: * Fundamentals * Units * Coordinate systems

3 Classical physics: (1600 - 1900) Classical Mechanics Thermodynamics Electromagnetism Modern physics: (1900 – now) Special Relativity Quantum Mechanics (General Relativity)

4 The basic interactions

5 The elementary particles fermions (half integer spin) bosons (integer spin)

6 Concepts, Models, and Theories Concepts: A concept is an idea or a physical quantity that is used to analyze natural phenomena. (operational definitions) Laws and Principles: A law is a mathematical relationship; a principle is a very general statement about how nature operates. Models: A model is a convenient analog or representation of a physical system and can be useful even if it is incomplete or incorrect. Theories: A theory uses a combined principles, a model, and initial assumptions to deduce specific consequences or laws (always tentative).

7 Units: Système International The value of any physical quantity must be expressed in terms of some standard or unit. MKS (SI) unit system: All physical quantities can be expressed in terms of three fundamental quantities: Length (m), mass(kg), and time (s). It is convenient to define additional base units: the kelvin (K) for temperature, the ampere (A) for electric current, and the candela (cd) for luminous intensity. The Gaussian (cgs) unit system P.9

8 Redefining the meter: In 1792 the unit of length, the meter, was defined as one-millionth the distance from the north pole to the equator. Later, the meter was defined as the distance between two finely engraved lines near the ends of a standard platinum-iridium bar, the standard meter bar. This bar is placed in the International Bureau of Weights and Measures near Paris, France. In 1960, the meter was defined to be 1 650 763.73 wavelengths of a particular orange-red light emitted by krypton-86 in a discharge tube that can be set anywhere in the world. In 1983, the meter was defined as the length of the path traveled by light in a vacuum during the time interval of 1/299 792 458 of a second. The speed of light is then exactly 299 792 458 m/s. Length

9 Some examples of lengths

10 Mass A platinum-iridium cylinder, kept at the International Bureau of Weights and Measures near Paris, France, has the standard mass of 1 kg. Another unit of mass is used for atomic mass measurements. Carbon-12 atom has a mass of 12 atomic mass units, defined as

11 Time Atomic clocks give very precise time measurements. An atomic clock at the National Institute of Standards and Technology in Boulder, CO, is the standard, and signals are available by shortwave radio stations. In 1967 the standard second was defined to be the time taken by 9 192 631 770 oscillations of the light emitted by cesium-133 atom.

12 Time

13 Units: Derived Units

14 Units: Conversion of Units

15 Standard Abbreviations for Units

16 The Greek Alphabet

17 Power of Ten Notation and Significant Figures Scientific notation uses the power of 10. Example: 3 560 000 000 m = 3.56 x 10 9 m. Sometimes special names are used to describe very large or very small quantities. For example, 2.35 x 10 -9 = 2.35 nanoseconds (ns) Numerical values obtained from the measurement always have some uncertainty. Significant figures indicate the precision of data.

18 Power of Ten Notation and Significant Figures

19 Dimensional Analysis Each derived unit in mechanics can be reduced to factors of the base units mass (M), length (L), and time (T). If one ignores the unit system, that is, whether it is SI or British, then the factors are called dimension. An equation must be dimensionally consistent. It provides a quick check.

20 Reference Frames and Coordinate System The position of a body has meaning only in relation to a frame of reference, which is something physical, such as a tabletop, a room, a ship, or the earth itself. The position is specified with respected to a coordinate system that consists of a set of axes, each of which specifies a direction in space. Three commonly employed coordinate systems are shown in the right. Cartesian (x, y, z) Cylindrical ( , φ, z) Spherical (r, θ, φ )

21 Homework: Problems 9, 19, 31, 42, 53

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