Topics
Physical Quantities and Measurement
- Measurements
- Physical Quantities
- Volume and It’s Unit
- Measurement of Volume
- Area and It’s Unit
- Measurement of Area
- Density and It’s Unit
- Measurement of Density
- Determination of Density of a Regular Solid
- Determination of Density of an Irregular Solid
- Determination of Density of a Liquid
- Speed
Force and Pressure: Motion
Energy
- Energy
- Forms of Energy
- Mechanical Energy
- Potential Energy (U)
- Kinetic Energy (K)
- Types of Kinetic Energy
- Conversion of Potential Energy into Kinetic Energy
- Transformation of Energy
- Conservation of Energy
- Hydroelectric Energy
Light Energy
- Light
- Reflection of Light
- Plane Mirror
- Terms Used in Reflection of Light
- Law of Reflection of Light
- Verification of the Law of Reflection of Light
- Reflection of a Ray of Light Normally Incident on a Plane Mirror
- Images Formed by a Plane Mirrors
- Formation of Image by Reflection: Real and Virtual Image
- Lateral Inversion
- Types of Reflection
- Speed of Light
- Colour
Heat
- Heat and Its Unit
- Heat Exchange
- The Temperature and a Thermometer
- Measuring Temperature
- Scales of Thermometers
- Effects of Heat
- Expansion of Substances (Thermal Expansion)
- Expansion of Solids
- Expansion of Liquids
- Expansion of Gases
- Transfer of Heat
- Conduction
- Convection
- Radiation
- Conductors and Insulators
- Thermos Flask (Dewar Flask)
Sound
Electricity and Magnetism
- Magnet
- Discovery of Magnets
- Classification of Magnets
- Magnetic Properties
- Laws of Magnetism
- Magnetic Field
- Electromagnet
- Making of an Electromagnet
- Applications of Electromagnets
- Electric Bell
- Earth’s Magnetic Declination
- Electricity
- Sources of Electricity
- Electric Circuit
- Conductors and Insulators
- Analogy of Electric Current with Water Flow
- Flow of Charges (Electrons) Between Conductor
- Symbols and Functions of Various Components of an Electric Circuits
- Types of Circuits: Series Circuit
- Types of Circuits: Parallel Circuit
- Electric cell
- Battery
- Introduction
- Structure and Working
- Function of the thermos flask
Introduction:
A thermos flask is used to keep hot liquids hot and cold liquids cold for a long time. Sir James Dewar was a Scottish scientist. He made the first thermos flask in 1892. That is why it is called the Dewar flask. Even today, a Dewar flask is used to keep a substance cold or hot.
Structure and Working:
- It has two glass tubes, one inside the other, with a gap between them.
- The surfaces of both tubes are coated with silver to make them shiny and reflect heat.
- The air between the tubes is removed, creating a vacuum, which prevents heat transfer.
- The flask is protected by an outer jar made of metal or plastic.
- Sponge or rubber is placed between the jar and flask to absorb shocks and prevent breakage.
The vacuum and shiny surfaces prevent heat from escaping or entering, keeping drinks hot or cold for a longer time.
Thermos flask
Function of the thermos flask:
- Prevents Radiation: The shiny surface inside reflects heat, stopping it from radiating out.
- Prevents Conduction and Convection: The vacuum between the two walls stops heat transfer by conduction and convection.
- Retains Heat or Cold: Since heat can’t escape or enter easily, the liquid inside stays hot or cold for a long time.
- Some Heat Loss: A small amount of heat escapes through the lid and glass walls by conduction.
- Temperature Change: After 2-3 hours, the hot substance may cool down slightly due to minor heat loss.
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