NCERT Solutions Class 10th Science Chapter – 11 Electricity Notes

NCERT Solutions Class 10th Science Chapter – 11 Electricity

TextbookNCERT
Class 10th
Subject Science
Chapter11th
Chapter NameElectricity
CategoryClass 10th Science
Medium English
SourceLast Doubt
NCERT Solutions Class 10th Science Chapter – 11 Electricity Notes What is electricity short notes, What is the SI unit of electricity What are the two types of circuit discuss Electricity Notes.

NCERT Solutions Class 10th Science Chapter – 11 Electricity

Chapter – 11

Electricity

Notes

Electric Current

SI unit – Ampere

What is it – It is the rate of flow of electric charges (electrons) in a conductor.

Experimentaly
Measured by an ammeter

How is it connected – always in series in a circuit through which we measure current

What is a circuit – Electric circuit is a continuous and closed path of an electric current.

Direction of current flow in circuit – Positive terminal of the cell to the negative terminal
It is the rate of flow of electric charges (electrons) in a conductor.

Mathematically
I = Q/t

Where
Q is the net charge that flows across cross-section of a conductor in time.
Charge is a fundamental particle in an atom. It may be positive or negative.

Like charges repel each other.

Unlike charges attract each other.
Coulomb (C) – S. I. unit of charge

1 coulomb charge = Charge present on approx. 6 × 1018 electrons

Charge on 1 electron = Negative charge of 1.6 × 10-19 C . Q = ne 

Where Q = Charge (total)
n = No. of electrons
e = Charge on 1 electron
Current (I) – The rate of flow of charge is called current.

Charge = Current/Time
I = _Q_

S. I. unit of current = Ampere (A)t
1 A = 1 Cs-¹
1 mA = 10-3 A
1 μA = 10-6 A

Current is measured by Ammeter. Its symbol is
b 2
Ammeter has low resistance and always connected in series.

Direction of current is taken opposite to flow of electrons as electrons were not known at the time when the phenomenon of electricity was discovered first and current was considered to be flow of positive charge.
Potential Difference (V) – Work done to move a unit charge from one point to another.

V = w/Q

S. I. unit of Potential difference = Volt (V)  1 V = 1 JC-1
1 Volt – When 1 joule work is done in carrying one coulomb charge then potential difference is called 1 volt.
Voltmeter – Instrument to measure potential difference.

• It has high resistance and always connected in parallel. Symbol is V.
• Cell is the simplest device to maintain potential difference.
• Current always flow from higher potential to lower potential.
Symbols of Some Commonly Used Components in Circuit
Electric Cellujkiolp
Batteryj 1
Key (Open)rtr
Key (Closed)njn
Wire Crossing (Without Join)fghj
Wire jointsdfg
Electric bulbdfghj
Resistance
Rheostatghj
Ammeterb 2
Voltmeterc 6
Ohm’s Law – Potential difference across the two points of a metallic conductor is directly proportional to current passing through the circuit provided that temperature remains constant.

Mathematical expression for Ohm’s law
 I
V = IR
R is a constant called resistance for a given metal.
V-I graph for Ohm’s law

Screenshot 20230203 233559
Resistance (R)

It is the property of a conductor to resist the flow of charges through it.
Ohm (Ω) S. I. unit of resistance.
1 ohm = 1 Volt/1 ampere
Rheostat – Variable resistance is a component used to regulate current without changing the source of voltage.
Factors on which the Resistance of a Conductor depends – Resistance of a uniform metallic conductor is directly proportional to the length of conductor, inversely proportional to the area of cross-section, directly proportional to the temperature and depend on nature of material.
Resistivity (P) – It is defined as the resistance offered by a cube of a material of side 1 m when current flows perpendicular to its opposite faces.

• Its S.I. unit is ohm-metre (Ωm).
• Resistivity does not change with change in length or area of cross-section but it changes with change in temperature.
• Range of resistivity of metals and alloys is 10-8 to 10-6 Ωm.
• Range of resistivity of insulators is 1012 to 1017 Ωm.
• Resistivity of alloy is generally higher than that of its constituent metals.
• Alloys do not oxidize (burn) readily at high temperature, so they are commonly used in electrical heating devices.
• Copper and Aluminium are used for electrical transmission lines as they have low resistivity.
Resistors in series
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When two or more resistors are connected end to end, the arrangement is called series combination.

 Total/resultant/overall/effective resistance in series
Rs = R+ R₂ + R3
 Current through each resistor is same.
 Equivalent resistance is larger than the largest individual resistance.
 Total voltage Sum of voltage drops
V = V₁ + V₂ + V₂
 Voltage across each resistor:

V₁ = IR₁
V₂ = IR₂
V3 = IR3
V = IR1 + IR+ IR3
IR = I(R1 + R+ R3)
R = R1 + R+ R3
[V₁ + V₂ + V₁ = V]
V = IR
Resistors in Parallel
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Voltage across each resistor is same and equal to the applied voltage.

Total current is equal to sum of currents through the individual resistance.

I = I+ I+ I3
V/R = V/R+ V/R+ V/R3

Reciprocal of equivalent resistance is equal to sum of reciprocals of individual resistances.

1/R= 1/R+ 1/R+ 1/R3

Equivalent resistance is less than the value of the smallest individual resistance in the combination.
Advantages of Parallel Combination over Series Combination

(i) In series circuit, when one component fails, the circuit is broken and none of the component works.

(ii) Different appliances have different requirement of current. This cannot be satisfied in series as current remains same.

(iii) The total resistance in a parallel circuit is decreased.
Heating Effect of Electric Circuit – If an electric circuit is purely resistive, the source of energy continually get dissipated entirely in form of heat. This is known as heating effect of electric current.

As, E = P×T ⇒ t VI {E = H}
Heat produced, H = VI t {V = IR}
Or, Heat produced, H = I2Rt
Joule’s Law of Heating Effect of Electric Current – It states that the heat produced in a resistor is

(i) directly proportional to square of current, H∝ l²
(ii) directly proportional to resistance for a given current, H∝ R
(iii) directly proportional to time for which current flows through the conductor, H∝ t.

So, H = I2Rt

 Heating effect is desirable in devices like electric heater, electric iron, electric bulb, electric fuse, etc.

 Heating effect is undesirable in devices like computers, computer monitors (CRT), TV, refrigerators etc.


 In electric bulb, most of the power consumed by the filament appears a heat and a small part of it is radiated in form of light.

 Filament of electric bulb is made up of tungsten as
(i) it does not oxidize readily at high temperature.
(ii) it has high melting point (3380° C).

 The bulbs are filled with chemically inactive gases like nitrogen and argon to prolong the life of filament.
Electric Fuse – 

It is a safety device that protects our electrical appliances in case of short circuit or overloading.

Fuse is made up of pure tin or alloy of copper and tin.

Fuse is always connected in series with live wire.Fuse has low melting point.

Current capacity of fuse is slightly higher than that of the appliance.
Electric Power – The rate at which electric energy is consumed or dissipated in an electric circuit.

P = VI
P = I2R = V2/R

S.I. unit of power = Watt (W)

1 Watt = 1 volt × 1 ampere

⇒ Commerciat unit of electric energy = Kilo watt hour (KWh)

1 KWh = 3.6× 106 j
1 KWh = 1 unit of electric energy
NCERT Solution Class 10th Science All Chapters Notes
Chapter 1 – Chemical Reactions and Equations
Chapter 2 – Acids, Bases, and Salts
Chapter 3 – Metals and Non-Metals
Chapter 4 – Carbon and Its Compounds
Chapter 5 – Life Processes
Chapter 6 – Control and Coordination
Chapter 7 – How Do Organisms Reproduce
Chapter 8 – Heredity
Chapter 9 – Light reflection and refraction
Chapter 10 – Human eye and colorful world
Chapter 11 – Electricity
Chapter 12 – Magnetic effect of electric current
Chapter 13 – Our Environment
NCERT Solution Class 10th Science All Chapters Question & Answer
Chapter 1 – Chemical Reactions and Equations
Chapter 2 – Acids, Bases, and Salts
Chapter 3 – Metals and Non-Metals
Chapter 4 – Carbon and Its Compounds
Chapter 5 – Life Processes
Chapter 6 – Control and Coordination
Chapter 7 – How Do Organisms Reproduce
Chapter 8 – Heredity and Evolution
Chapter 9 – Light reflection and refraction
Chapter 10 – Human eye and colorful world
Chapter 11 – Electricity
Chapter 12 – Magnetic effect of electric current
Chapter 13 – Our Environment
NCERT Solution Class 10th Science All Chapters MCQ
Chapter 1 – Chemical Reactions and Equations
Chapter 2 – Acids, Bases, and Salts
Chapter 3 – Metals and Non-Metals
Chapter 4 – Carbon and Its Compounds
Chapter 5 – Life Processes
Chapter 6 – Control and Coordination
Chapter 7 – How Do Organisms Reproduce
Chapter 8 – Heredity
Chapter 9 – Light reflection and refraction
Chapter 10 – Human eye and colorful world
Chapter 11 – Electricity
Chapter 12 – Magnetic effect of electric current
Chapter 13 – Our Environment

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