Following is the plan
for this week :
MATHEMATICS :
Start Permutations
and Combinations from Eduwiser’s Algebra by Prof. K. C. Sinha. It will help to
go through the Section I of this chapter first. Go through the theory and
“Worked Out Examples” thoroughly. You do not need to solve each question from
the exercise of Section I here.
Once you are done
with it, start Section II. Go through the “Summary of Results” first. If you
have any doubts understanding the results, refer Section I theory again but be
thorough with the theory and concepts involved. Each book in the market has a
different way of solving the same question. What I have noticed is that, in
other books, the methods explained are not general and cannot be applied to
most of the questions. That is why things become a little difficult and
confusing in this chapter. But with the book I have suggested, you should be
able to find general methods of solving different types of questions. Going
through the “Worked Out Examples” will help you clarify and brush-up your
concepts of the chapter and the methods you would have learned from the same
book. You should then solve all the questions (including “Prove that” ones)
from the book. Lay emphasis on new pattern questions. If you fail to solve any
question, give it a try next week but in case you still are not able to solve
the question next week, get help from your teachers.
Also try to solve new
pattern questions from any source possible. You will also be able to get abundant
questions from this chapter on the internet. Try solving them using the
concepts you have learned from the book.
After you are done
with Eduwiser’s Algebra, work out questions of the chapter from Eduwiser’s
Mathematics for AIEEE. Here, you should again try to take timed tests of yours
to build your speed. The entire Permutations and Combinations should eat up
about twenty hours of your time.
CHEMISTRY :
In Physical
Chemistry, we will cover the following topics of Nuclear
chemistry:
Radioactivity: isotopes and isobars; Properties of α, β and γ rays; Kinetics of
radioactive decay (decay series excluded), carbon dating; Stability of nuclei
with respect to proton-neutron ratio; Brief discussion on fission and fusion
reactions.
You just need to
refer to “Worked Out Examples” from Dr. P. Bahadur’s Physical Chemistry and
“Worked Out Examples” with exercise from Dr. R. C. Mukherjee’s Physical
Chemistry. This chapter becomes very important because of two reasons. One,
there is minimal risk with this chapter. If you have sincerely solved all the
questions from the books suggested, chances are high that you will be able to
solve the questions of JEE Mains and Advanced. You can test this by trying to
solve questions asked in previous years’ IIT-JEE. Two, the same chapter appears
in Modern Physics. With the same theory, you should be able to solve questions
asked in Physics from the same chapter.
Also try solving
questions from previous years’ IIT-JEE and new pattern questions from various
sources. This chapter will take approximately ten hours of your time.
The target for
Organic Chemistry will be to finish Carboxylic
acids:
Formation of esters, acid chlorides and amides, ester hydrolysis. Follow your Coaching
Classes notes or Prof. S. Lal’s Organic Chemistry along with Morrison and Boyd
for concepts that you do not understand. Try to justify each reaction of the
chapter as you study.
Also solve questions
that have been asked in previous years’ IIT-JEE and clarify your doubts as soon
as possible. Organic Chemistry should consume about eight hours of your time.
In Inorganic
Chemistry this week, you can cover Sulphur: hydrogen sulphide, oxides,
sulphurous acid, sulphuric acid and sodium thiosulphate; Halogens: hydrohalic
acids, oxides and oxyacids of chlorine, bleaching powder; Xenon fluorides from
your Coaching Classes course material or NCERT books. At this time, you should
also solve questions asked in previous years’ competitive examinations. This
should take nine hours.
PHYSICS :
For Physics this
week, we will get rid of the following topics from Thermal physics: Thermal
expansion of solids, liquids and gases; Calorimetry, latent heat; Heat
conduction in one dimension; Elementary concepts of convection and radiation;
Newton’s law of cooling; Ideal gas laws; Specific heats (Cv and Cp
for monoatomic and diatomic gases); Isothermal and adiabatic processes, bulk
modulus of gases; Equivalence of heat and work; First law of thermodynamics and
its applications (only for ideal gases); Blackbody radiation: absorptive and
emissive powers; Kirchhoff’s law; Wien’s
displacement law, Stefan’s law.
Needless to mention,
all this topics should be covered from Dr. H. C. Verma’s Concepts of Physics –
Vol. 2. All the topics of Thermal Physics are high scoring, low risk topics.
You have to be thorough with them. If you are thorough with them, there will be
no question of JEE Mains and Advanced from these topics that you will not be
able to solve. Special hint for the chapter on Heat Transfer from Dr. H. C.
Verma’s book is to compare it to Current Electricity.
Try solving previous
years’ questions from IIT-JEE, new pattern questions from Coaching Classes
material and objective questions from Prof. Deb Mukherjee’s MCQ. Physics will
take about twenty-three hours this week.
Until next week, all
the best !
If you have any questions/comments, you can interact with me on www.facebook.com/abbyshekchandra
If you have any questions/comments, you can interact with me on www.facebook.com/abbyshekchandra