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Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET PDF Download

Resistivity of Materials

We know there are three types of materials; conductors, semiconductors and insulators. Conductors are the materials that can pass electricity through them. In this document, before we learn about electrical resistivity, let us know what is meant by electrical conductivity and its units.
Electrical Conductivity is an intrinsic property of a material which is defined as the measure of the amount of electrical current a material can carry. Electrical conductivity is also known as specific conductance, and the SI unit is Siemens per meter (S/m). It is also defined as the ratio of the current density to the electric field strength. It is represented by the Greek letter σ.

Electrical conductivity is a measure of how readily a material transmits an electrical current.Electrical conductivity is a measure of how readily a material transmits an electrical current.

What is Electrical Resistivity?

Electrical resistivity is the reciprocal of electrical conductivity. It is the measure of the ability of a material to oppose the flow of current.

  • Metals are good conductors of electricity. Hence, they have low resistivity.
  • The insulators like rubber, glass, graphite, plastics, etc. have very high resistivity when compared to the metallic conductors.
  • The third type is the semiconductor which comes in between the conductors and insulators. Their resistivity decreases with the increase in temperature and is also affected by the presence of impurities in them.

Resistivity of Different Materials

The table below lists the electrical resistivity of several conductors, semiconductors, and insulators.

Electrical Resistivity of Different MaterialsElectrical Resistivity of Different Materials

Resistivity Formula

Materials having electric field and current density will have the following resistivity formula:

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

Where,

  • ρ is the resistivity of the material in Ω.m
  • E is the magnitude of the electric field in V.m-1
  • J is the magnitude of current density in A.m-2

Conductors with a uniform cross-section and uniform flow of electric current will have the following resistivity formula:

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

Where,

  • ρ is the resistivity of the material in Ω.m
  • R is the electrical resistance of uniform cross-sectional material in Ω
  • l is the length of a piece of material in m
  • A is the cross-sectional area of the material in m2

Resistivity Unit

Following is the unit of resistivity:

CGS unit

Ω.cm

SI unit

Ω.m

Dimension of resistivity M1L3T-3A-2

Factors determining Resistivity of Materials

Following are the factors that determine the resistivity of materials:

  • Nature of material
  • Temperature

Question for Resistivity & Colour Coding of Resistances
Try yourself:What is the SI unit of electrical conductivity?
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Resistor Colour-Coding

Resistors are used in electrical circuits to control or reduce the flow of current in the circuit. Their resistance is indicated by using electronic color codes. Different color bands or rings are marked on these resistors for different values of resistance.

Resistor Colour Code and Resistor Tolerance explained Resistor Colour Code and 
Resistor Tolerance explained 
Highlights of the resistor color-coding are as follows:

  • It usually contains four bands.
  • The first band is indicative of the first significant figure of the resistance.
  • The second band is the second significant figure. (At times there is a third band to have more precision and hence, they are 5 band resistors.)
  • The third band is the decimal multiplier.
  • The fourth band is indicative of the tolerance (in percentage) that the resistor can withstand the indicated values.
  • In the absence of the fourth band, a default tolerance of 20% is taken.

Let us take an example to understand resistor color coding.

Resistor Color CodingResistor Color Coding

  • The resistor has four color bands.
  • The first band is red. From the table, we know that red stands for the significant digit 2.
  • The second is red too. This is indicative of the second significant digit 2.
  • The third band is a multiplier and is black. For black, the multiplier is 100 or 1.
  • The fourth band is gold which indicates a tolerance of ±5%.
  • Hence, the resistor has a resistance of 22 x 1 Ω with ±5% tolerance.

Have you ever wondered why electrical appliances heat up when used for a longer time? Resistance is a property of an electric circuit or part of a circuit that transforms electric energy into heat energy in opposing electric current. In this document, we will study about such properties as resistance and Resistivity and the effect of temperature on these in detail. 

Electrical Resistance v/s Electrical Resistivity

  • Resistance is the characteristic that hinders the movement of electrons, particularly the flow of electric current. It's determined by the relationship between voltage and the electric current introduced into an electronic device. 

ResistanceResistance

  • Resistivity is the phenomenon of specific electrical resistance of a material or volume resistivity of a material. It can also be defined as the intrinsic property of a material that displays how the material resists the flow of current in the material. The concept can also be defined as the resistance that is displayed by a conductor which has unit length and unit area of the given cross-section.

ResistivityResistivity

Question for Resistivity & Colour Coding of Resistances
Try yourself:
What is the property of an electric circuit that transforms electric energy into heat energy in opposing electric current?
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Difference between Resistance & ResistivityDifference between Resistance & Resistivity

Temperature Dependence of Resistance

In simple terms, resistance behaves differently with temperature for different materials.

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

  • For conductors: With increase in temperature of conductor, the number of collisions between the free electrons increases due to increase in thermal energy resulting in the random motion of electrons. These electrons find it difficult to drift in a particular direction for conduction. Hence the resistance of conductor increases as the temperature increases.
  • For semiconductors: When you increase the temperature, a semiconductor's conductivity generally increases. This happens because the outermost electrons gain more energy and can leave the atom's shell. 

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

However, there isn't a straightforward math formula that can describe how resistance changes with temperature for various materials, and it varies from one material to another. 

Question for Resistivity & Colour Coding of Resistances
Try yourself:
What happens to the resistance of a conductor when it is heated up?
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When we increase the temperature, as a result the resistance increases. Suppose the resistance of a conductor at 0o C is R0 Ω increasing the temperature to C, the resistance becomes Rt Ω, as shown in fig.

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

Change in resistance =ΔR

                                                                                           ΔR = Rt - Ro

ΔR depends upon the following three factors: 

1. ΔR is directly proportional to the initial resistance, Ro

2. ΔR is directly proportional to the rise in temperature, t0C

3. ΔR depends upon the nature of the conductor.

Mathematically, 

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

Where (α) is called the temperature co-efficient of resistances. If the resistance of the material increases on increasing the temperature such materials have a positive temperature coefficient and when on increasing the temperature and the resistance decreases such materials have a negative temperature coefficient. From the equation, we can find 

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

Example 1: Suppose you have a copper wire with a resistance of 10 ohms at 20 degrees Celsius. The temperature coefficient of resistance for copper is approximately 0.00393 /oC. If the temperature increases to 50∘ �50oC, find the new resistance (��Rt).

Solution: Substitute the values into the formula:

Rt =10Ω(1+0.00393(5020))

��=10 Ω⋅(1+0.00393⋅30)Rt =10Ω(1+0.0039330)

��=10 Ω⋅(1+0.1179)R=10Ω(1+0.1179)

��=10 Ω⋅1.1179R=10Ω1.1179

��≈11.179 ΩR11.179Ω

So the new resistance Rt at 50oC is 11.179Ω

Example 2: Let's say you have a sample of unknown material with a resistance of 20Ω at 25oC and a resistance of 30Ω at 75oC. Find the temperature coefficient of resistance (α) for this material.

Solution: 

The formula for the temperature coefficient of resistance is given by:

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

��=�0⋅(1+�⋅(��−�0So, the temperature coefficient of the material is 0.01 /oC

Temperature Dependence of Resistivity 

The resistivity of a material is temperature-dependent. The temperature dependence of the resistivity is different for conductors, semiconductors, and insulators. Let’s discuss how resistivity varies in conductors and insulators before discussing semiconductors. 

Energy Band Gaps in MaterialsEnergy Band Gaps in Materials

Conductors: 

  • In conductors, when the temperature goes up, the atoms begin to vibrate more vigorously. This increased vibration results in collisions between free electrons and other electrons. 
  • These collisions lead to a loss of energy from the free electrons, which are the ones responsible for carrying the electric current. 
  • As a result, the speed at which these electrons move, known as drift velocity, decreases due to this energy loss. This decrease in drift velocity causes the resistance of conductors, especially metals, to increase. 
  • In essence, as temperature rises, the resistance of the metal also goes up, which means it has a positive temperature coefficient of resistance. When the temperature is high, the resistivity of the conductor increases, and its conductivity decreases.

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

Insulators:

  • Insulators shift to the conduction zone with an increase in temperature. 
  • The resistivity of an insulator decreases with temperature, resulting in an increase in conductivity.
  • Insulators exhibit a negative temperature coefficient of resistance.


Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

Semi-conductors: 

Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET

  • In semiconductors, as the temperature rises, the gap between the conduction band and the valence band narrows. This increase in temperature provides the valence electrons in the semiconductor with enough energy to break free from their covalent bonds and move up to the conduction band.
  • This, in turn, results in a greater number of charge carriers within the semiconductor at higher temperatures. The increased presence of these charge carriers lowers the resistance of the semiconductor. 
  • Consequently, as temperature increases, the semiconductor's resistance decreases, making it more conductive. Thus, at high temperatures, semiconductors display excellent conductivity.

The resistivity of materials is dependent upon the temperature of the material.
ρt = ρ0 [1 + α (T – T0)] 
is the equation that defines the connection between the temperature and the resistivity of a given material. In this equation ρ0 is the resistivity at an equilibrium temperature, ρt is the resistivity at t0 C, T0 is referred to as the reference temperature and α is the temperature coefficient of resistivity.

Frequently Asked Questions – FAQs

1. What is the SI unit of electrical resistivity? 
SI unit of electrical resistivity is the ohm-meter.

2. What is the relationship between electrical conductivity and electrical resistivity? 
The relationship between electrical conductivity and electrical resistivity is
σ = 1/ρ

3. Is rubber a good conductor of electricity? 
Rubber cannot pass electricity, hence is not a conductor.

4. Explain the conductance of a semiconductor? 
The conducting capacity of semiconductors lies between a conductor and an insulator.

5. Give some examples of good conductors?

  • Gold
  • Silver
  • Copper
  • Aluminum
  • Zinc
  • Brass
The document Resistivity & Colour Coding of Resistances | Physics Class 12 - NEET is a part of the NEET Course Physics Class 12.
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FAQs on Resistivity & Colour Coding of Resistances - Physics Class 12 - NEET

1. What is the relationship between resistivity and the color coding of resistors?
Ans. The color coding on resistors indicates their resistance value and tolerance, not their resistivity. Resistivity is a material property that determines how well a material resists the flow of electric current.
2. How does the temperature dependence of resistance differ from the temperature dependence of resistivity?
Ans. The temperature dependence of resistance refers to how the resistance of a material changes with temperature, while the temperature dependence of resistivity refers to how the resistivity of a material changes with temperature.
3. How can resistivity be calculated for a given material?
Ans. Resistivity can be calculated by dividing the resistance of a specimen of the material by its cross-sectional area and length, using the formula: resistivity = (resistance x area) / length.
4. What role does temperature play in the resistance of a material?
Ans. The resistance of a material typically increases with temperature due to the increased thermal vibration of atoms, which hinders the flow of electrons. This relationship is described by the temperature coefficient of resistance.
5. How does the resistivity of a material affect its suitability for use in electrical components?
Ans. Materials with low resistivity are good conductors of electricity and are suitable for use in electrical components that require minimal energy loss. In contrast, materials with high resistivity are insulators and are used to prevent the flow of electric current.
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