How can I improve my concentration when I'm study physics.
hello gayatri
thanks for the query. the answer to your question is:
i. gather all the materials or requirements with you like entire stationary, books, registers etc.
ii. take breaks after every 15-20mins but the break should not be longer than 5-7mins. according to psychology the brain looses its concentration after every 20-25 mins and thus studying after such time would not prove to be helpful to you.
iii. not only physics, but in general, you should start performing meditation for 5-10 mins every day which will increase your concentration power.
iv. maintain good silent environment while studying
v. start with solving important topics first as we tend to be more concentrated in the beginning than with passing time.
vi. when you feel like you are getting tired, that is the time when you should choose going for easier questions and topics.
vii.put the formulas near you i.e. on bulletin boards, walls etc so every time you pass from that room or that place and read those formulas , it will help you memorise those formulas better and for longer.
Physics is one of main subject to go ahead careers of medical or engineering.
To get a hold on this subject, you will have to focus on few things:
- Get a sound environment with less/no distractions
- Arrange your study materials and stationery requirements before you start with the preparation.
- Plan your routine systematically and include short breaks in it.
- The breaks has to be no longer than 10 mins.
- Self motivation obviously is the key. So if you are not willing then no one can force you.
- You have to realize the importance of the subject, your boards or even in future and act accordingly.
- Priortize the main topics to cover first.
- Do not only focus on easy ones and skip important ones.
- Give sectional/full tests to improve your preparations and analyse them.
- Refer to the standard material for preparations. Quality matters not quantity.
Good Luck.
Coulomb’s Law, Forces between multiple charges electric field due to system of charges, Electric dipole’s electric field on axial and equatorial point, Electric dipole in external electric field, Gauss’s law applications, Potential due to electric dipole and system of charges, Electric potential energy due to electric dipole and system of charges, Equipotential surfaces, Effect of dielectric on capacitors, Combinations of capacitors, Energy stored in capacitors, Magnetic force on current carrying wire, Motion in a magnetic field, Velocity selector, Cyclotron, Magnetic field on axis of circular current carrying loop, Ampere’s circuital law, Force between two parallel current carrying wires, Displacement Current, EM waves, Image formation by spherical mirrors and lenses, Total internal reflection, Power and combination of lenses, Refraction through a Prism, Natural phenomenons due to light, Eye, Telescope, Microscope etc.