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What are Physical Quantities?
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What are Physical Quantities?

Physical Quantities

This section introduces the concept of physical quantities and their properties.

What is a physical quantity?

  • A physical quantity is any measurable property.
  • It has a numerical magnitude and a unit of measurement.

Properties of a physical quantity

  • A physical quantity must have both magnitude and unit.
  • Example: Height of a student is 165 cm, where 165 is the numerical magnitude and cm is the unit.

Categories of physical quantities

  • Base Quantities: Length, mass, time, temperature, intensity of light, electric current, amount of substance.
  • Derived Quantities: Area, volume, velocity, acceleration, force, pressure, momentum, electric charge.

Units for Physical Quantities

This section discusses the universally adopted system of units for measuring physical quantities.

Importance of units

  • Units provide a standard with which quantities can be compared and expressed.
  • Units allow for universal sharing of knowledge and findings in different fields.

International System of Units (SI)

  • The SI system was accepted during the eleventh General Conference on Weights and Measures in 1960.
  • SI stands for System International.

Base Units

  • Length: Meter (m)
  • Time: Second (s)
  • Mass: Kilogram (kg)
  • Electric Current: Ampere (A)
  • Temperature: Kelvin (K)
  • Amount of Substance: Mole (mol)
  • Intensity of Light: Candela (cd)

Derived Units

  • Derived units are defined in terms of base units.
  • Examples include velocity (m/s), acceleration (m/s²), force (N), pressure (Pa), momentum (kg·m/s), charge (C), magnetic flux density (T).

Measurement Techniques

This section explains different techniques for measuring physical quantities accurately.

Length Measurement

  • Meter Rule: Used to measure length or distance between two points. Smallest reading is 1mm.
  • Measuring Tape: Used for greater lengths, measured in cm and inches.
  • Vernier Caliper: Provides accuracy of more than 1mm. Least count is 0.1mm.

Zero Error in Measurements

This section discusses the concept of zero error in measurement instruments.

Vernier Caliper

  • To achieve accurate measurements, we need to find the zero error of the instrument.
  • Zero error can be added or subtracted from obtained readings to obtain accurate results.

The transcript does not provide timestamps for all bullet points.

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