Name: Physics Animations
Brand: Revoedubook Services Private Limited
SKU: 68946b32a8dec04f17a3e5b9
Availability: InStock

Physics Animations

Unleash the power of visualization in physics!

Instructor: Vishal Kalra

Validity Period: Lifetime

Description
Course Content
How to Use

Description:

The Physics Animations course is designed to help students visualize and understand complex physics concepts through interactive animations and simulations. Explore the wonders of the physical world in a fun and engaging way.

Key Highlights:

Interactive animations
Engaging simulations
Visualizing complex concepts

What you will learn:

Enhanced Understanding
Visualize abstract physics concepts through animations for better comprehension.
Interactive Learning
Engage with simulations to see physics principles in action and deepen your understanding.
Fun Exploration
Explore the world of physics through interactive animations that make learning enjoyable.

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	A lens
		A converging lens
		An image formed by a converging lens
		Images formed by diverging lenses
	Accelerating motion
		Distance covered in subsequent seconds
		Distance
		Graph
		How to derive acceleration from a graph
	Acceleration
		Acceleration
		Change in speed
		Dragster
		Variable motions
	Addition of forces
		A drop of a parcel
		Arches
		Component forces
		A boat on the river
		Equilibrium of forces
		Force test
		Parallelogram method
	Affect of radiation on live organisms
		Dosimeters
		Geiger-Müller counter (2)
		Photomultiplier in a scintillation counter 1:00
		The values of dose equivalent
	Air pressure
	Air resistance
		A ball
		A cyclist
		Free fall in a vacuum
		Parachutist
		Shape factor
		What will fall faster
	Alternating current and a generator
		Bicycle dynamo
		Mini generator
		The period of alternating current
		Voltage in the mains
	Application of radioactivity
		A thickness measuring device
		Scintigraphy
		Radioiodine therapy
		Sterilisation-1
	Application of static electricity and the threats it poses
		A photocopier
		Dangers due to discharge sparks 1:00
		Electrical discharges 1:00
		Lightning conductor
		Lightning 1:00
		What does a discharge involve
	Application of waves for communication
		A photocopier
		Static electricity in technology 1:00
		What does a discharge involve
		Dangers due to discharge sparks 1:00
		Electrical discharges 1:00
		Lightning conductor
		Lightning 1:00
	Buoyant force
		Archimedes' Principle
		Bodies immersed in a gas 1:00
		Where does the buoyant force come from
	Application of waves for communication
		Satellite telephony
		Telegraph
		Methods of modulation 1:00
		Mobile telephony
	Capacitors
		Farad 1:00
		The electric field inside a capacitor
		Application of capacitors in electronics
		How a capacitor operates 1:00
		The energy and work of a capacitor
		Van de Graaff generator 1:00
	Cells and batteries
		A battery of cells
		A source of voltage
		Discharging a battery 1:00
		The capacity of a cell
		The energy of a cell 1:00
		The operation of a cell 1:00
	Charging objects
		A permanently charged body 1:00
		Methods of charging an object 1:00
		Attraction only
		Electric charge
		Methods of charging an object 1:00
		The distribution of electrons 1:00
	Colours
		Daltonism
		Primary and complementary colours
		Seeing colours
		How does light pass through a prism
		The Purkinje effect
		Three types of cones
	CRT and an oscilloscope
		A particle moving in an electric field
		How does an oscilloscope operate
		How is image made
		The magnitude of the Lorentz force
	Current in a household
	Curvilinear motion
		Formula 1
	Decay Law
		Half-life
		Radon concentration
	Density
		Density of air 1:00
		Density of substances 1:00
		Density of air 1:00
		Density of substances 1:00
	Diffraction and interference
		Compact disc
		Interference pattern 1:00
		Soap bubble 2:00
		Diffraction grating 1:00
		Diffraction of light 1:00
		The measurement of wavelength
	Diffraction and interference of mechanical waves
		A standing wave
		Wave bending around an edge 2:00
		Wave interference (2)
		Wave interference
	Digital systems
		Digital image
		Disturbances
		How analogue signals are encoded digitally
		Analogue and digital devices
		Analogue and digital signals
		Digital encoding
		How analogue signals are encoded digitally
	Diode
		A p-n junction
		Diode testing
		A p-n junction
		Diode testing
		A p-n junction
		A semiconductor diode (2)
	Direct current circuit
		A circuit junction
		A system of resistors
		Properties of a parallel circuit 1:00
		The properties of a series circuit
	Displacement, distance and velocity
		A bee's flight path
		Different frames of reference
		Speed of a car
		A bee's flight path
		The length of a velocity vector equals speed
		Velocity
	Doppler effect
		Mensuration of velocity
		Stationary source of sound
		When does the Doppler effect not exist
		Anecdote
		Moving wave source
		When does the Doppler effect not exist
	Eclipses
		Types of lunar eclipse
		Lunar eclipse
	Efficiency
		The efficiency of a motor 1:00
		Bouncing 1:00
		Power station
	Efficiency and economy
		Heating 1:00
		How to keep heat 1:00
		uc_p4_l067_08_01a
		Ventilation 1:00
	Electric current
		A close look at current 1:00
		Current in gases 1:00
		Current in liquids
		A close look at current 1:00
	Electric energy and methods of energy saving
		Electricity is not free
		Energy consumption label
		Types of electricity meters
		Consumption of energy
		Energy consumption label
		Work and power
		Work parameters 1:00
	Electric motor
		A couple of forces
	Electromagnetic force
		A current-carrying conductor in a magnetic field
		A diagram of the meter
		Attraction between current-carrying conductors
		uc_p4_l059_07_02a
	Electromagnetic induction
		Electromagnetic induction (3)
		Electromagnetic induction (4)
		Eddy currents 1:00
		Electromagnetic induction
		Fluorescent lamp and a starter 2:00
		The reasons for the flow of induced current
	Electromagnetic induction (SATELLITES)
		Applications of different satellites
		Satellites' observation
	Electromagnetic waves
		Electric field changes (2)
		Electric field changes
		Electromagnetic waves emission 1:00
		Electric field changes (3)
		Electromagnetic waves emission
		Mechanical waves versus electromagnetic waves
	Electromagnets
		How to construct an electromagnet
		Oersted's discovery
		Right hand rule
	Energy conversions
		A swing – curiosity
	Equilibrium
		Changeability of energy
		The effects of friction
		A broom
		A car
	Evaporation and condensation
		A change in the state of matter
		Heat of vaporisation
		The heat of vaporisation of water
		The transfer of energy
	Expansion of gases
	Floating bodies
		A balloon
		Heterogeneous bodies
		The stability of ships
		The bouyant force and the weight
	Force and acceleration
		Races
		The resultant force (2)
		The mass of the body
	Force measurement
		A scale
		A spring
		An apple
		The measurement of the force applied by a man
	Forces
		Force resulting from mechanical interaction
	Free fall
		A fake force gauge
		Gravitational acceleration on the Moon
		A parachute
	Friction
		Braking distance
		Friction
		Kinetic friction and static friction
		The load
	Gas laws
	Gases, liquids and solids
		Allotropic forms of crystals
	Graphs of motion
		Distance – time graph (1)
		Graph
		Speed changes
		Stroboscope
	Gravitation
		Force of gravity (2)
		Mass and weight
		The balls
		An apple
	Inertia
		A trolley
	Infrasound and ultrasound
		Application of ultrasounds
		Ear
		Echolocation
		Infrasound
		Ultrasound
	Interference of sound waves
		A standing wave in a pipe
		Harmonic oscillations
		The frequency of beats
		The oscillations of a string
	Kinetic energy
		How to calculate kinetic energy
	Laser
		Coherent light
		Coherent beam, monochromatic beam
	Levers and pulleys
		A pulley
		A tackle
		A wheelbarrow
		Explanation
		How to lift a heavy weight
		uc_p4_l066_07_01a
	Logic gates
		Logic status of an AND gate
		Memory
		Switches
		Logic statuses of a NOT gate
		Logic statuses of an OR gate
		Logic statuses of NAND and NOR gates
	Magnetic field
		Flux density is a vector
		Interactions between magnets
		Magnetic field lines
		Magnetised objects
		Objects attracted by a magnet
		The attraction of iron filings by magnets
	Mechanical waves
		Circles on water
		The energy of waves
		Types of waves
		Waves in liquids and solids
	Melting and freezing
		The density of ice
	Momentum
		A braking car
		Newton's balls
		Positive and negative momentum
		Wagons
	Nuclear energy
		Energy due to fission
		Nuclear power station
		Nuclear reactor
		Nuclear waste
	Nuclear fission 1
		Avalanche reaction
		How to obtain fissile material
		The stability of a nucleus and the binding energy
	Nuclear fusion
		uc_p4_l106_07_01f
		Thermonuclear fusion
	Nuclear radiation
		Alpha, beta and gamma radiation
		C-14 carbon dating
		Natural carbon
	Ohm's Law
		Batteries in electric devices
		How to prove Ohm's Law
		Relationships between voltage and current
	Optical instruments
		An image formed by a magnifying glass
		An image through a microscope (2)
		Images in a refracting telescope
		The parameters of binoculars
	Oscillations
		A disc and a weight
		Periodic motions
		The period of oscillations of a pendulum
		The resultant force in harmonic motion
	Potential energy
		Work
		Changes in energy
		Work done to lift a body (4)
	Power
		Increase in energy (2)
		Change in energy
	Power supply units and rectifiers
		A power supply
		Examples of DC supplies
		The operation of a rectifier (2)
	Pressure
		A copper wire
		Load per unit area
	Pressure of a liquid
		Compression and stretching
	Properties of matter
		Diffusion
	Reflection and refraction of waves
	Reflection of light
		How to illuminate a room
	Refraction of light
		A change of medium (2)
		A change of medium
	Resonance
		Free and forced oscillations (2)
	Seismic waves
		Analysis of the propagation of seismic waves
	Sound
		Supersonic flights
		The amplitude and the frequency of sound

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