iSCORE Academy © 2010

Info line

09561643319

CUSTOMIZED COACHING FOR ACADEMIC EXCELLENCE

counter
Text Box: JEE - Engg
Text Box: Hotel Mgmt CET
Text Box: Engg. Dip/Deg
Text Box:  CA-CPT 
Text Box: 11th Science
Text Box: 12th Science
Text Box: Architecture CET
Text Box: 10th Standard
Share |
Text Box: Board Exam Time 2014
Text Box: Paper Pattern Subject Wise

Contact Us

Our Branches

About Us

Home

MHCET - Medical

IMP for HSC Physics Exam 2014

Text Box: JEE-14
Text Box: ENGG CET
Text Box: NATA-14
Text Box: ARCHITECTURE CET
Text Box: MED-CET
Text Box: MEDICAL ENTRANCE 14
Text Box: Hotel Mgmt
Text Box: NCHMCT ENTRANCE 14
Text Box: CA-CPT
Text Box: CHARTERED A/C ENT 14
Text Box: Admission open for Following Crash Courses starting from 15th March 2014 | DEMO Class from 11th to 14th March 2014
Hostel and Mess facility for Outstation students  
[Click link below for details]

Chapter 1: Circular Motion

Chapter 6: Surface Tension

1. Derive an expression for resultant acceleration in Non-UCM.

2. Q.14 (Page 20) Text Book

3. Q. 10 (Page 21) TB

4.  Q.19 (Page 20) TB – Numerical

1. Q.20 (Page 106) Text Book.

2. Q.5 (Page 107) TB - Numerical

3. Q.4 (Page 106) TB - Numerical

Chapter 2: Gravitation

Chapter 7: Wave Motion

1. Q.15 (Page 35) TB

2. Show that T =  3pi/Gp where T is period of satellite orbiting close to earth’s Surface, p is mean density of earth.

3. Q.14 (Page 36) Text Book – Numerical

1. Q.5 (Page 118) Text Book.

2. Q.1 (Page 118) TB - Numerical

3. Q.6 (Page 106) TB - Numerical

Chapter 3: Rotational Motion

Chapter 8: Stationary Wave

Q.10 (Page 54) TB

Q.9 (Page 55) TB

Q.4 (Page 54) TB – Numerical

 Q.9 (Page 52) TB – Numerical

1. Q.4 (Page 135) Text Book.

2. Q.28 (Page 136) TB

3. Q.9 (Page 137) TB – Numerical

4. Q.16 (Page 137) TB – Numerical

Chapter 4: Oscillation

Chapter 9: Kinetic Theory

1. Q.5 (Page 75) TB

2. Derive Differential equation of dampened harmonic oscillation

3. Q.10 (Page 76) Text Book – Numerical

4. Q.7 (Page 73) Text Book

1. State and explain law of equipartition of energy. Determine specific heat capacity of a polyatomic gas molecule.

2. Explain Spectrum of Black body radiation, hence Wein’s displacement law

3. Q.4 (Page 159) TB – Numerical

4. Calculate total number of degrees of freedom possessed by the molecules in 1 cm3 of H2 gas at NTP

Chapter 5: Elasticity

 

1. Derive a relation between Young’s Modulus, Co-efficient of linear expansion and thermal stress or show that Stress = Y a Dq

2. Q.11 (Page 93) TB

3. Q.10 (Page 93) Text Book – Numerical

4. Q.8 (Page 90) Text Book

 

Chapter 10: Wave Theory

Chapter 15: Magnetism

1. Q.4 (Page 170) TB

2. Q.8 (Page 170) TB

3. Q.9 (Page 170) TB

4.  A light source approaches observer with velocity 0.8C. Find the Doppler shift for light of wavelength 5500 Å [Ans 3667Å]

4.  Q.6 (Page 170) TB – Numerical

1. Q.1 (Page 255) Text Book.

2.  State Curie Law

2. Q.6 (Page 255) TB - Numerical

3. Q.3 (Page 255) TB - Numerical

Chapter 11: Interference and Diffraction

Chapter 16: Electromagnetic Induction

1. Obtain an expression for resultant amplitude of two interfering waves. Find ratio of max and min intensities

2. Q.14 Pg 186         4.  Q.14 Page 188

3. Q.12 Pg 188         5.  Q.6 Page 187

1. What is displacement current? Explain its need

2. Q.19 (Page 279)

3. Q.13 (Page 279)

4. Q.4 (Page 280)

5. Q.4 (Page 276)

Chapter 12:  Electrostatics

Chapter 17: Electrons and Photons

Q.8 (Page 210) TB

Q.18 (Page 210) TB

Q.11 (Page 212) TB

1. What .are Photons? State characteristics of photon.

2. Q.3 (Page 289) –TB – Numerical

Chapter 13: Current Electricity

Chapter 18: Atom, Molecule and Nuclei

1. Q.11 Page 229

2. Q.12 Page 230

3. Q.17 Page 230

1. Q.13 (Page 307)

2. Q.5 (Page 307)

3. Q.10 (Page 305) TB - Numerical

4. Q.8 (Page 308) TB – Numerical

Chapter 14: Magnetic Effect

Chapter 19: Semi Conductors

1. Derive an expression for velocity of a change particle in cyclotron

2. Q.2 Page 246 TB

3. Q.4 (Page 246) Text Book – Numerical

4. Q.5 (Page 246) Text Book  – Numerical

1. Q.9 (Page 328)

2. Q.21 (Page 328)

3. Q.19 (Page 328) TB

4. Q.25(Page 328) TB

Chapter 20: Communication Systems

 

1. Q.5 (Page 340)

2. What is Modulation? State Different Types of Modulation

3. Q.1 (Page 340) TB