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  #2  
2nd September 2014, 09:41 AM
Super Moderator
 
Join Date: Apr 2013
Re: Are Andhra Pradesh students eligible to apply for Karnataka CET?

As you want to get the details that are Andhra Pradesh students eligible to apply for Karnataka CET so here it is for you:

Yes you are eligible for the exam of Karnataka CET

Here for your reference I am giving you the details of Karnataka CET:

Karnataka CET 2014 Eligibility Criteria:
Candidates must have passed class 12th with Physics and Mathematics as compulsory subjects.

Candidates must have Chemistry / Bio-technology / Computer-Science / Electronics / Biology as optional subjects with English as one of the languages of study.

Candidates must have secured at least 45% in aggregate in optional subjects to meet the KCET 2014 Eligibility Criteria.

Candidates must have fulfilled the Domicile Criteria as specified by the KEA authorities

Karnataka CET 2014 Application Fees:
Fees for general category is Rs. 650 (Rs 500 for SC, ST and OBC).

Application Fee can be paid via:
Bank challan or DD in favour of "Executive Director, Karnataka Examinations Authority", payable at Bangalore.

Karnataka CET 2014 Important Dates:
Events
Important dates
Payment of Application fees at Bank
March 8 to 17, 2014
Last Date of Payment of Application Fees by DD
March 20, 2014 extended till April 1, 2014
Last Date for Submission of KEA Copy of Challan at School/Colleges
April 4, 2014
Admission Tickets available for download
April 28, 2014
Entrance Test
May 1 & 2, 2014
Result Declaration
May 27, 2014
KCET 2014 Counselling
starts from June 2, 2014 onwards

Karnataka CET 2014 Exam Pattern:
KCET Exam Pattern 2014 will be based on four subjects namely Biology, Mathematics, Physics and Chemistry pertaining 60 marks each. All these subjects will comprise of the 60 questions each.
  #3  
19th March 2015, 03:41 PM
Unregistered
Guest
 
Re: Are Andhra Pradesh students eligible to apply for Karnataka CET?

I am a Andhra Pradesh student I want to know that am I eligible to apply for Karnataka CET or not please provide me information about it ?
  #4  
20th March 2015, 09:55 AM
Super Moderator
 
Join Date: Apr 2013
Re: Are Andhra Pradesh students eligible to apply for Karnataka CET?

Yes you are eligible to apply for Karnataka CET exam, so here I am giving you information about this exam.

Eligibility:
Candidates must have XII class passed certificate with math’s and physics as compulsory subjects and Bio-technology / Electronics / Chemistry / Computer Science / Biology as optional subject or equivalent examination with minimum of 45% marks.

Tentative Exam Date:
1st week of May 2015

Exam Pattern:
KCET applicants have to score at least 12 marks out of 50 in the Kannada Language exam in order to qualify it.

KCET Exam Pattern clearly mentions that there will be NO negative marking for wrong answers and no credit will be given to the questions with more than one answer marked.

Every exam will be of 80 minutes.

According to KCET Exam Pattern question paper for every subject will be in 16 different versions and will have objective type questions.

Here is the syllabus of Karnataka CET Physics:
PHYSICS

1. WAVES AND SOUND
• Waves: formation of waves, types of waves, wave amplitude, frequency,
wave length and velocity - relation n =f l - equation for progressive wave,
intensity, super position of waves. Problems
• Sound: Properties, velocity in gases, Newton - Laplace formula, factors affecting velocity -
intensity and loudness, units, Noise and Music beats as an example of superposition of waves,
Doppler effect, formula for general case, discussion for individual cases. Problems
• Stationary waves: Modes of vibration in pipes, laws of vibration of stretched strings,
sonometer, Problems.
• Ultrasonics: Production (mention of methods), properties and applications
• Acoustics of buildings: reverberation, Sabine's formula (mention), requisites for good
acoustics and methods of achieving them.
2. PHYSICAL OPTICS
• Introduction to theories of light
• Interference of light: Coherent sources, Young's double slit experiment, expression for path
difference, conditions for constructive and destructive interference, width of interference
fringes. Problems
• Diffraction of light: Fresnel and Fraunhofer diffraction, Fraunhofer diffraction through a
single slit (qualitative explanation), limit of resolution, Rayleigh's criterion, resolving
powers of telescopes and microscope. Problems
• Polarisation of light: transverse nature of light waves, methods of producing plane polarised
light, Brewster's law, double refraction, dichroism, polariods and their applications, optical
activity and specific rotation. Problems.
3. ELECTROSTATICS
• Electric charge: Coulomb's law, dielectric constant, SI unit of charge, electric intensity and
potential, relation connecting them, derivation of expression for potential at a point due to an
isolated charge. Gauss theorem and applications, intensity at a point (a) due to a charged
spherical conductor (b) near the surface of a charged conductor, Problems
• Capacitors: parallel plate, spherical, cylindrical, expressions for the capacitances, principle
of a capacitor, effect of dielectric, energy stored in a capacitor, combination of capacitors,
uses, Problems
4. CURRENT ELECTRICITY
• Different effects of electric current: potential difference, resistance, colour code, Ohm's law
and its limitations, variation of resistance of a conductor with length- area of cross section
and temperature, resistivity, superconductivity, thermistor and its applications, combination of
resistors, EMF of a cell, current in a circuit, branch currents, grouping of cells, expression
for different cases, potentiometer, problems
• Kirchhoff's laws: Condition for balance of a Wheatstone's bridge, metre bridge, Problems
• Magetic effect of current: direction of field, right hand clasp rule and magnitude - Laplace's
law, force on a charged particle moving across a magnetic field (qualitative), magnetic field
strength, flux density, magnetic flux density at a point on the axis of (a) a circular coil
carrying current (derivation), (b) a solenoid carrying current (without derivation), tangent law,
tangent galvanometer (with theory), Problems
• Force on a current carrying conductor in a magnetic field: Fleming's left hand rule, force
between two parallel conductors carrying current, definition of ampere, suspended coil
galvanometer (with theory), conversion of galvanometer into ammeter and voltmeter, Problems
• Magnetic materials: Intensity of Magnetising field (H), intensity of magnetisation (I) and
magnetic induction (B) - relation connecting them, permeability and susceptibility, properties of
dia, para and ferromagnetic substances, hysteresis cycle and its significance, retentivity and
coercivity, uses of magnetic materials.
• Electromagnetic induction: Laws, self and mutual induction, induction coil (principle),
principle and working of a generator, expression for sinusoidal emf, peak, mean and rms values,
impedance, current in R, L & C and RLC circuits, power factor, choke and transformer (principle),
principles of a ac meters (moving iron and hot wire types) Problems.
5. MODERN PHYSICS
• Introduction to modern physics: types of spectra, E. M. spectrum, types of electron emission.
• Quantum theory of radiation: Explanation and applications of photoelectric effect, atom models,
Bohr's theory of hydrogen atom, derivation of expressions for orbital radius, orbital velocity,
energy of electron and wave number, spectral series, energy level diagram, de Broglie matter
waves, Problems.
• Nuclear Physics: Nuclear size, charge, mass and density, constituents, amu in terms of electron
volts, magnetic moment and nuclear forces, mass defect and binding energy, nuclear fission, chain
reaction, critical size, nuclear reactor, nuclear fusion, stellar energy, radiation hazards,
Problems.
• Radioactivity: Properties of radioactive radiations, decay law, decay constant, Soddy's group
displacement law, half life and mean life, expression for half life, radio isotopes and their
uses, Problems.
• Solid state electronics: Band theory of solids (qualitative), classification into conductors,
insulators and semi conductors, p-type and n-type semi conductors, characteristics of p-n
junction, rectifying action of diode, half wave and full wave rectifiers. Transistors, pnp and
npn, characteristics, relation between alph and beta transistors as an amplifier (qualitative
-npn in CE mode)


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