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Physics major (1st year) (semester 1&2)
Everything that you need to know for first year physics & examples.
[Show more]Everything that you need to know for first year physics & examples.
[Show more]Preview 3 out of 19 pages
Add to cartAll you need to know for the first year of physics major course
Preview 4 out of 41 pages
Add to cartAll you need to know for first year of physics major course
Preview 4 out of 49 pages
Add to cartEverything you need to know for university level physics
Everything that you need to know for physics first year. Including examples.
Preview 4 out of 38 pages
Add to cartEverything that you need to know for physics first year. Including examples.
everything you need to know for first year physics. Including examples.
Preview 3 out of 19 pages
Add to carteverything you need to know for first year physics. Including examples.
Preview 4 out of 41 pages
Add to cartEverything you need to know for physics first year & examples
topics covered:
dielectrics
Gauss' law in dielectrics
capacitance
magnetism & relativity
Amperian paths
Ampere's law
Biot-Savart law
faraday & Lenz laws
inductance 
magnetic energy
electric circuits
conductivity
ray optics
fermat's principle
Snel's law
lensmaker's formula
Preview 4 out of 38 pages
Add to carttopics covered:
dielectrics
Gauss' law in dielectrics
capacitance
magnetism & relativity
Amperian paths
Ampere's law
Biot-Savart law
faraday & Lenz laws
inductance 
magnetic energy
electric circuits
conductivity
ray optics
fermat's principle
Snel's law
lensmaker's formula
Topics covered: 
Periodic motion
harmonic motion
damped oscillations
energy of simple harmonic motion
waves in 1 ,2 & 3D
standing waves
wave equation
doppler effect
sound
huygen's principle
Electric fields 
Gauss' law
dipole charges
work & energy in electrostatics
potential difference
Preview 4 out of 49 pages
Add to cartTopics covered: 
Periodic motion
harmonic motion
damped oscillations
energy of simple harmonic motion
waves in 1 ,2 & 3D
standing waves
wave equation
doppler effect
sound
huygen's principle
Electric fields 
Gauss' law
dipole charges
work & energy in electrostatics
potential difference
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