Topics
Measurements and Experimentation
- Measurements
- Physical Quantities
- Unit and Its Types
- Unit Systems
- The International System of Units (SI)
- Unit Prefixes
- Measurement of Length
- Measuring Smaller Distances
- Measuring Larger Distances
- Measurement of Time
- Rules and Conventions for Writing SI Units and Their Symbols
- Vernier Callipers
- Principle of Vernier
- Screw Gauge
- Principle of Screw Gauge
- Simple Pendulum
- A Time Period of Oscillation and Frequency
- Measurements Using Common Instruments
Motion in One Dimension
- Scalar and Vector Quantities
- Force and Motion
- Motion Along a Straight Line
- Distance and Displacement
- Speed
- Types of Speed
- Velocity
- Types of Velocity
- Distinguish Between Speed and Velocity
- Acceleration and Retardation
- Types of Acceleration
- Acceleration Due to Gravity (Earth’s Gravitational Acceleration)
- Graphical Representation of Motion
- Displacement - Time Graph Or Distance - Time Graph
- Velocity - Time Graphs
- Acceleration - Time Graph
- Motion Under Gravity
- Equations of Motion by Graphical Method
- Derivation of Velocity - Time Relation by Graphical Method
- Measuring the Rate of Motion - Speed with Direction
- Rate of Change of Velocity
Laws of Motion
- Effect of Force
- Types of Forces>Contact and Non-Contact Forces
- Newton's First Law of Motion
- Inertia and Mass
- Types of Inertia
- Linear Momentum
- Change in Momentum
- Rate of Change of Momentum
- Newton’s Second Law of Motion
- Newton's Third Law of Motion
- Force Due to Gravity
- Acceleration Due to Gravity (Earth’s Gravitational Acceleration)
- Free Fall
- Mass and Weight
- Gravitational Units of Force
- Newton's Universal Law of Gravitation
Fluids
Fluids
- Introduction of Fluid
- Variation of Pressure with Depth in a Fluid
- Thrust and Pressure
- Factors Affecting Pressure
- Pressure of liquid
- Pressure Exerted by a Liquid Column
- Law of Liquid Pressure
- Consequences of Liquid Pressure
- Pascal’s Law
- Application of Pascal’s Law
- Hydraulic Machines: Hydraulic Press (Or Bramah Press)
- Atmospheric Pressure
- Consequences of Atmospheric Pressure
- Measurement of Atmospheric Pressure
- Mercury Barometer (Simple Barometer)
- Fortin’s Barometer
- Aneroid Barometer
- Variation of Atmospheric Pressure with Altitude
- Weather Forecast by the Use of Arometer
- Altimeter
Buoyancy, Upthrust
- Buoyancy Force (Upthrust Force)
- Characteristic Properties of Upthrust
- Reason for Upthrust
- Upthrust is Equal to the Weight of Displaced Liquid (Mathematical Proof)
- Archimedes Principle
- Solid Bodies with density (ρ) greater than density of liquid (ρL) sink while with density (ρ) less than density of liquid (ρL) Float
- Density and It’s Unit
- Relative Density and Its Unit
- Relationship Between Density and Relative Density
- Determination of Relative Density of a Solid Substance by Archimedes’ Principle
- Determination of Relative Density of a Liquid by Archimedes’ Principle
- Principle of Floatation (Laws of Flotation)
- Relation Between Volume of Submerged Part of a Floating Body, the Densities of Liquid and the Body
- Application of the Principle of Floatation
Heat and Energy
- Heat
- The Temperature and a Thermometer
- Thermal Expansion
- Expansion of Solids
- Expansion of Liquids
- Expansion of Gases
- Anomalous Expansion of Water
- Consequences of Anomalous Expansion of Water
- Application of Laws of Thermodynamics in Energy Flow
- Sources of Energy
- Energy Resources > Conventional energy resources or non-renewable energy resources
- Electricity Generation using Solar Energy
- Solar Energy Devices
- Electricity Generation using Wind Energy
- Electricity Generation using Hydroelectric Energy
- Bio-energy
- Energy from the Sea
- Forms of Energy > Geo Thermal Energy
- Power Plants Based on Nuclear Energy
- Conservation of Coal, Petroleum, and Natural Resources
- Protecting our environment
- Energy Degradation
- Green House Effect
- Preventive Measures of Green House Effect
- Preventive Measures of Global Warming
- Future Predictions of Global Warming
Light
- Reflection of Light
- Terms Used in Reflection of Light
- Law of Reflection of Light
- Verification of the Law of Reflection of Light
- Formation of Image by Reflection: Real and Virtual Image
- Formation of Image of a Point Object by a Plane Mirror
- Image of an Extended Object Formed by a Plane Mirror
- Position of Image
- Lateral Inversion
- Plane Mirror
- Images Formed by a Plane Mirrors
- Images Formed in Two Inclined Mirrors
- Images Formed in a Pair of Mirrors Placed Parallel to Each Other
- Images Formed by Two Mirrors Placed Perpendicular to Each Other
- Spherical Mirrors
- Rules to Trace the Image Formed by Spherical Mirrors
- Factors Affecting Focal Length of a Lens
- Position and Nature of Image Formed by Spherical Mirrors
- Spherical Mirror > Concave Mirror
- Image Formation by Concave Mirror
- Spherical Mirror > Convex Mirror
- Image Formation by Convex Mirror
- Relationship Between the Focal Length and Radius of Curvature
- Sign Convention
- Mirror Equation/Formula
- Distinction Between a Plane Mirror, Concave Mirror and Convex Mirror
Sound
- Sound Waves
- Production of Sound
- Propagation of Sound
- Sound Need a Medium to Travel
- Characteristics of Sound
- Representation of a Wave
- Relationship Between the Wavelength, Wave Velocity and Frequency
- Speed of Sound (Velocity of Sound)
- Speed of Sound in Different Media
- Light Waves vs Sound Waves
- Factors Affecting Speed of Sound
- Factors Not Affecting Speed of Sound in a Gas
- Experimental Determination of Speed of Sound in Air
- Audibility and Range
- Ultrasonic Sound Or Ultrasound
Electricity and Magnetism
Electricity
- Electric cell
- Electric Current
- Symbols and Functions of Various Components of an Electric Circuits
- Electric Circuit
- Types of Circuits: Simple Circuit
- Electrical Conduction in Solids
- Flow of Charges (Electrons) Between Conductor
- Direction of the Electric Current - Conventional and Electronic Flow
- Potential and Potential Difference
- Electric Resistance
- Factors of Resistance
- Ohm's Law
- Conservation of Electrical Energy
- Social Initiatives for Energy
Magnetism
- Magnet
- Magnetic and Non-magnetic Materials
- Induced Magnetism
- Properties of magnetic lines of force
- Concept of Magnetism
- Plotting of Uniform Magnetic Field Lines of Earth
- Plotting of Non Uniform Magnetic Field of a Strong Bar Magnet and Neutral Points
- Neutral Points in Magnetic Fields
- Electromagnet
- Making of an Electromagnet
- Permanent Magnet
- Uses of Electromagnet
Maharashtra State Board: Class 7
Types of Velocity:
| Type of Velocity | Explanation | Example |
|---|---|---|
| Uniform Velocity | An object has uniform velocity if it covers equal distances in equal intervals of time without changing direction. Both speed and direction remain constant. |
A car moving at 60 km/hr in a straight line without slowing down or speeding up. |
| Non-Uniform Velocity | An object has non-uniform velocity if it covers unequal distances in equal intervals of time or if its direction changes. The speed or direction (or both) keeps changing. |
A bus stopping at different stations and then moving at different speeds between stops. A cyclist turning a corner. |
| Instantaneous Velocity | This is the velocity of an object at a particular moment or instant of time. It shows the speed and direction of the object at that instant. |
The speedometer of a car shows the instantaneous velocity at a given moment (e.g., 50 km/hr). |
| Average Velocity | Average velocity is the total displacement divided by the total time taken. It is used when the velocity changes over a journey. |
If a person covers 100 km in 2 hours, the average velocity is 50 km/hour. Even if the speed varied, the average is calculated for the whole trip. |
