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Introduction to Units & Measurements | Physics Class 11 - NEET PDF Download

Introduction

  • When thinking about building a house, it's important for architects and builders to measure things like walls and beams.
  • They need to use the same units of measurement, such as meters or feet, to ensure everything fits together properly.
  • If one team uses meters and another team uses feet, it could lead to serious issues.  For example, 
    Suppose two teams are working together to build a bridge:
    Team A uses meters and designs a beam that is 6 meters long.
    Team B uses feet and makes a supporting pillar 15 feet tall.
    When it's time to assemble, the team must  ensure that the beam fits exactly on the pillar. But the units are different!
    1 meter = 3.281 feet.
    If Team A's 6-meter-long beam is converted to feet: 
    6 meters × 3.281 feet meter = 19.686 feet
    The beam is actually 19.686 feet, while the pillar is only 15 feet tall, so they won’t fit properly. 
    This mismatch could lead to structural problems in the bridge.

Introduction to Units & Measurements | Physics Class 11 - NEET

  • This mismatch could make the house unsafe, and it would require repairs, which would take extra time and cost more money.
  • Using the correct units and taking accurate measurements is crucial, just like following a recipe to ensure successful outcomes. 
  • These practices help ensure that everything comes together correctly and safely.

Let's study measurements and their units in detail, in this document.

What are Physical Quantities?

The quantities that can be measured by an instrument and by which laws of physics can be described are called physical quantities.

  • A physical quantity has two main characteristics: the numerical magnitude and the unit of measurement.

  • For Example, mass can be quantified as n kg, where n is the numerical value and kg is the unit.

Introduction to Units & Measurements | Physics Class 11 - NEET

  • Physical quantity = numerical value and unit (n x u)

  • While expressing a  definite amount of physical quantity, it is clear that as the unit (u) changes, the magnitude (n) will also change but product ‘nu’ will remain same.  Introduction to Units & Measurements | Physics Class 11 - NEETIntroduction to Units & Measurements | Physics Class 11 - NEETi.e. magnitude of a physical quantity and units are inversely proportional to each other.

 Larger the unit, smaller will be the magnitude.

  • In physics, there are seven fundamental physical quantities that are measured in base or physical fundamental units: 
    1. Length
    2. Mass
    3. Time
    4.  Electric Current
    5.  Temperature
    6.  Amount of Substance
    7.  Luminous Intensity

Introduction to Units & Measurements | Physics Class 11 - NEETBasic Physical Quantities with symbols and definitions

Fundamental and Derived Quantities

1. Fundamental Quantities

  • There are only a few physical quantities in nature that are independent of others and don't need any additional quantities to be defined.
  • These are called absolute quantities, or fundamental/base quantities.
  • In short,  all other physical quantities are built upon and expressed using these fundamental quantities.

2. Derived Quantities

  • Any other physical quantities can be calculated by multiplying or dividing the powers of fundamental quantities.
  • In short, derived quantities are generated from fundamental quantities through mathematical operations.

Example: Length is a fundamental quantity, while area and volume are derived from it. 

Area = Length², and Volume = Length³.

The table below shows some of the derived units:

Introduction to Units & Measurements | Physics Class 11 - NEET

 System of Units

A complete set of units, both fundamental and derived, for all kinds of physical quantities, is called the system of units.

  • To measure a physical quantity we require a standard of measurement. This standard is called the unit of that physical quantity.
  • The system of units was introduced by the General Conference on Weight and Measures in 1971 and was accepted internationally. 
  • It has 7 basic units with 2 complementary units.

Some commonly used systems include:

  • CGS System (Gaussian System):  Fundamental quantities are length, mass, and time.
    Corresponding units: centimetre (cm), gram (g), and second (s).
  • MKS System (Giorgi System): Uses length, mass, and time as fundamental quantities.
    Corresponding units: metre (m), kilogram (kg), and second (s).
  • FPS System: Measures length, mass, and time using different units.
    Units: foot (ft), pound (lb), and second (s).
  • S.I. System (International System):  It is the global standard for units in physics.
    Consists of seven fundamental quantities with corresponding units, covering all aspects of physics.

Introduction to Units & Measurements | Physics Class 11 - NEET

Here is the summarised table:

Introduction to Units & Measurements | Physics Class 11 - NEET

Besides the above 7 fundamental units, 2 supplementary units are also defined:

  • Radian (radfor plane angle
  • Steradian (sr) for solid angle

Introduction to Units & Measurements | Physics Class 11 - NEET

Choice of a Standard Unit

The unit chosen should meet the following essential requirements:

Introduction to Units & Measurements | Physics Class 11 - NEET

S.I. Prefixes

  • The magnitudes of physical quantities vary over a wide range. The General Conference on Weight and Measures recommended standard prefixes for SI units to denote multiples and submultiples.
    Introduction to Units & Measurements | Physics Class 11 - NEET

General Guidelines for Using Symbols 

  • Symbols for units of physical quantities are printed/written in Roman (upright type), and not in italics.
    Example: 1N is correct, but 1N is incorrect.
  • Units are never written with capital initial letters even if  named after a scientist.
    Example: SI unit of force is newton (correct) Newton (incorrect).
  •  The symbol for a unit named after a scientist is a capital letter. But for other units, the symbol is NOT a capital letter. Example
     Introduction to Units & Measurements | Physics Class 11 - NEET

Question for Introduction to Units & Measurements
Try yourself:Which of the following is a unit that of force?
View Solution

  • Symbols for units do not contain any final full stop at the end of the recommended letter and remain unaltered in the plural, using only the singular form of the unit. 

Example:Introduction to Units & Measurements | Physics Class 11 - NEET

  • The use of slash (/) is recommended only for indicating a division of one letter unit symbol by another unit symbol. Not more than one slash is used. Example:
    Introduction to Units & Measurements | Physics Class 11 - NEET

  • Prefix symbols are printed in Roman (upright) type without spacing between the prefix and the unit symbol. Thus certain approved prefixes written very close to the unit symbol are used to indicate decimal fractions or multiples of an SI unit when it is inconveniently small or large. Example
    Introduction to Units & Measurements | Physics Class 11 - NEET

  • The unit 'fermi', equal to a femtometre or 10-15 m has been used as the convenient length unit in nuclear studies.

  • When a prefix is placed before the symbol of a unit, the combination of prefix and symbol is considered as a new symbol, for the unit, which can be raised to a positive or negative power without using brackets. These can be combined with other unit symbols to form a compound unitExample: 

Introduction to Units & Measurements | Physics Class 11 - NEET

  • A prefix is never used alone. It is always attached to a unit symbol and written or fixed before the unit symbol.
    Example: 103/m3 = 1000/m3 or 1000 m-3, but not k/m3 or k m-3.

  • The prefix symbol is written very close to the unit symbol without spacing between them, while unit symbols are written separately with spacing with units multiplied together. Example
                     Introduction to Units & Measurements | Physics Class 11 - NEET

  • The use of double prefixes is avoided when single prefixes are available. Example
                      Introduction to Units & Measurements | Physics Class 11 - NEET

  • A combination of units and symbols for the unit should be avoided when expressing a physical quantity with two or more units. Example

Introduction to Units & Measurements | Physics Class 11 - NEET

Some Special Types of Units

  • Micron (1μ)  = 10-6 m   (length)
  • Angstrom (1 Å) = 10-8 cm = 10-10m (length)
  • Fermi (1 f) = 10-13 cm = 10-15 m  (length)
  • Inch = 2.54 cm  (length)
  • Mile = 5280 feet = 1.609 km   (length)
  • Atmosphere = 105 N/m2 = 76 torr = 76 mm of Hg pressure   (pressure)
  • Litre = 10-3 m3 = 1000 cm3    (volume)
  • Carat = 0.0002 kg    (weight)
  • Pound (Ib) = 0.4536 kg    (weight)

Question for Introduction to Units & Measurements
Try yourself:One astronomical unit is a distance equal to
View Solution
 

Order of Magnitude

The order of magnitude tells us about the largeness or smallness of a physical quantity. 

To find the order of magnitude the value of the physical quantity is expressed as a × 10where 1 ≤ a < 10 and b is a positive or a negative integer. The exponent of 10, here it is b, is called of the order of magnitude.

For example:

  • The radius of the Earth is 6.4 x 106m. If we take 6.4 as 10 then the order of magnitude of the radius of Earth is 107m. 
  • If the height of a girl is 1.7 m = 1.7 x 100m then the order of magnitude of the height of the girl is zero.  

Example: What is the order of magnitude of 0.000520 kg?

Sol: 0.000520 kg = 5.2 x 10-4

As 5.2 > 5 so, 5.2 is nearly 10 

= 10 x 10-4 = 10-3

So the order of magnitude is -3. 

Classification of Physical Quantities

  • Physical quantities can be grouped in different ways to help us understand their properties and how they relate to each other. 
  • Two common ways to classify these quantities are: 
    • Directional properties - This refers to how the quantities behave in terms of direction.
    • Dependency - This indicates whether these quantities rely on other quantities.
  •  By looking at both the direction and the dependencies of physical quantities, we can learn more about how they act and their basic nature in the field of physics

Question for Introduction to Units & Measurements
Try yourself:Which of the following is NOT one of the seven fundamental physical quantities?
View Solution

1. Based on their Directional Properties

Based on their directional properties, physical quantities can be classified into two categories: 
(a) scalar quantities

(b) vector quantities.

Introduction to Units & Measurements | Physics Class 11 - NEETClassification based on Directional Properties

(a) Scalars: The physical quantities which have only magnitude but no direction are called scalar quantities. They are described solely by their numerical value or size

ExamplesMass, temperature, energy, time, speed, and distance

(b) Vectors: The physical quantities which have both magnitude and direction and obey the laws of vector algebra are called vector quantities. They require both numerical value and a specified direction to be fully described. 

ExamplesDisplacement, velocity, acceleration, force, momentum, and electric field

2. Based on their Dependency

Based on their dependency, physical quantities can be classified into three categories:

Introduction to Units & Measurements | Physics Class 11 - NEETTypes of Physical Quantities

(a) Fundamental Quantity

  • Although the number of physical quantities we measure is very large, we need only a limited number of units to express all the physical quantities since they are interrelated.

Introduction to Units & Measurements | Physics Class 11 - NEETFundamental Physical Quantities

  •  Certain physical quantities have been chosen arbitrarily, and their units are used for expressing all the physical quantities. Such quantities are known as Fundamental Quantities (such as length, time, and mass in mechanics)

  • All other quantities may be expressed in terms of fundamental quantities.

  • These quantities are independent and cannot be expressed in terms of one another.

Question for Introduction to Units & Measurements
Try yourself:The base quantity among the following is
View Solution

(b) Derived Quantity

  • Physical quantities that can be expressed as a combination of base quantities are called derived quantitiesThey can be infinite in number.
    Example: Speed, velocity, acceleration, force, momentum, pressure, energy, etc.
    Introduction to Units & Measurements | Physics Class 11 - NEET

Introduction to Units & Measurements | Physics Class 11 - NEET

Derived Quantities

(c) Supplementary Quantity

There are two supplementary quantities in addition to the seven fundamental physical quantities that are defined in the International System of Units (S.I).

(i) Plane Angle:

  • Plane Angle is defined as the amount of rotation about the point of intersection of two lines that is required to make them overlap one another. The S.I. unit is radian.

  •  θ= l/r, where =angle in radian ; l = length of arc and r=radius

Introduction to Units & Measurements | Physics Class 11 - NEETPlane Angle

  • The degree is another unit used to measure plane angle. We can easily convert radian to degree and vice-versa. 

Introduction to Units & Measurements | Physics Class 11 - NEETRadian to Degree Conversion

Introduction to Units & Measurements | Physics Class 11 - NEETCommonly used Values

(ii) Solid Angle:

  • A solid angle is a cone subtended by a surface on the center of the sphere of which the surface is a part. It is defined by the ratio of the area of the surface to the square of the radius. It is measured in Steradian (sd).

Introduction to Units & Measurements | Physics Class 11 - NEETSolid Angle

In the diagram, the area S of the sphere subtends a solid angle, Ω = S/r

Dimensions of a Physical Quantity

Dimensions are the powers to which fundamental units are raised to express the derived units of a quantity. 

  • If one knows the unit of any physical quantity, the dimension of the physical quantity can be easily written. 
  • We can express the dimensions of derived physical quantities in terms of the fundamental ones. 
  • Refer to the table below for a few examples : 

Introduction to Units & Measurements | Physics Class 11 - NEETCommonly used derived units

Apart from the above physical quantities, we can frame numerous dimensions of physical quantities. There are some constants in physics whose dimensions are of utmost importance : 

Introduction to Units & Measurements | Physics Class 11 - NEET


Important : 

  • Two supplementary physical quantities i.e. angle and solid angle have units, but they are dimensionless.  
  • All the ratios involving the same physical quantities, like, strain and refractive index are both unitless and dimensionless. 
  • There is no such physical quantity that is unitless but has some dimension. 

Dimensional Analysis 

The basic concept of dimension is that we can add and subtract only quantities with the same dimensions. Similarly, two physical quantities can be equal only if they have the same dimensions. Dimensional analysis is essential because it keeps the units the same, helping us perform mathematical calculations smoothly.

Uses of Dimensional Analysis

1. To check the correctness of a physical equation.

2. To derive the relation between different physical quantities involved in a physical phenomenon.

3. To change from one system of units to another.

To read more about dimensional analysis and its applications, click here.

Significant Figures and Rounding off

Significant figures play an important role in all mathematics-based sciences. Significant Figures are the digits in your number that were measured plus one estimated digit. Significant Figures Rules:

1. All nonzero digits are significant.

2. Zeros between significant digits are significant.

3. Zeros to the left of non-zero digits are not significant.

4. Zeroes at the end of a number are significant only if they are to the right of the decimal point. 

To read more about significant figures, click here.

Rounding Rules:

1. If the number ends in something greater than 5, then you round up.

2. If the number ends in something less than 5, then you round down.

3. (Round Half to Even Rule) If the number ends in a perfect 5 (in other words all or no zeros after the five), you round to the even number.
Addition and Subtraction: Round to the smallest number to the right of the decimal.

Multiplication and Division: Round to the number that has the least number of significant digits from the measured or given values.

Summary

1. The dimensional formula of: 
  • all trigonometric ratio is [M0L0T0]
  • x in ex is [M0L0T0]
  • ex is [M0L0T0]
  • x in log x is [M0L0T0]
  • log x is [M0L0T0]
2. No information about the dimensionless constant is obtained during dimensional analysis.
3. Formula cannot be found if a physical quantity is dependent on more than three physical quantities.
4. A formula containing trigonometrical /exponential functions cannot be found.
5. If an equation is dimensionally correct it may or may not be absolutely correct.

6. The number of significant figures depends upon the least count of the instrument.
7. The number of significant figures does not depend on the units chosen.

The document Introduction to Units & Measurements | Physics Class 11 - NEET is a part of the NEET Course Physics Class 11.
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FAQs on Introduction to Units & Measurements - Physics Class 11 - NEET

1. What are physical quantities and how are they classified?
Ans. Physical quantities are properties of physical systems that can be measured or quantified. They are classified into two main categories: fundamental quantities and derived quantities. Fundamental quantities, like length, mass, time, electric current, temperature, amount of substance, and luminous intensity, are basic units that cannot be expressed in terms of other quantities. Derived quantities, such as speed, force, and energy, are obtained by combining fundamental quantities through multiplication or division.
2. What is the significance of the system of units in measurements?
Ans. The system of units provides a standard framework for measuring physical quantities, ensuring consistency and clarity in scientific communication. The most commonly used systems are the International System of Units (SI), which includes base units like meter (m), kilogram (kg), and second (s), and the CGS (centimeter-gram-second) system. By adhering to a specific system, scientists and researchers can accurately share and compare their results.
3. How do you determine the dimensions of a physical quantity?
Ans. The dimensions of a physical quantity represent its relationship to the fundamental quantities. To determine the dimensions, one expresses the quantity in terms of the base units of length (L), mass (M), time (T), etc. For example, the dimensions of velocity can be derived as [L][T]⁻¹, indicating that it involves length and time. This dimensional analysis helps in understanding the nature of the physical quantity and ensures dimensional consistency in equations.
4. What is dimensional analysis and its applications?
Ans. Dimensional analysis is a mathematical technique used to convert one set of units to another, check the consistency of equations, and derive relationships between physical quantities. It involves analyzing the dimensions of quantities to ensure they are compatible. Applications include verifying the correctness of formulas, deriving new equations, and simplifying complex problems by reducing the number of variables.
5. How do significant figures impact measurements and calculations?
Ans. Significant figures indicate the precision of a measurement and play a crucial role in calculations. They include all non-zero digits, any zeros between significant digits, and trailing zeros in the decimal portion. When performing calculations, the result should reflect the least number of significant figures in any of the measurements used. This practice ensures that the final answer is not more precise than the least precise measurement, maintaining the integrity of the data.
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