1. Identify the underlined sound segment in Thomas 2. SQ3R means 3. Knowing the contextual meaning of a word is
Differentiate the following 1. Find dy dx wheny = 2x 5 cosx 2. y = 6x 2 sinxcosx 3. y = sinx x2+cosx
1. Find integration of ∫ 𝑡𝑠𝑖𝑛𝑥 (a). –txcosx (b) txcosx (c) tcosx (d) cosxsinx 2. Find the integration of ^2/3 (a) 93/5 (b) 96/5 (c) 90/5 (d) none of the above 3. Find the derivative of y =𝑒𝑥2 (a) 𝑒𝑥2 (b) 𝟐𝒆𝒙𝟐 (c) x𝑒𝑥2 (d)2x𝑒𝑥2
Bragg’s Law Constructive and Destructive Interference of Waves What is X-ray Diffraction Why XRD? Detection of Diffracted X-rays by Photographic film Basics of Crystallography Seven Crystal Systems - Review Miller Indices: hkl - Review Several Atomic Planes and Their d-spacings in a Simple Cubic - Review Planes and Spacings - Review Indexing of Planes and Directions - Review Production of X-rays Characteristic X-ray Lines A Modern Automated X-ray Diffractometer Basic Features of Typical XRD...
•Spectra Series of Hydrogen atom •Properties of Nucleus •Radioactivity: •Natural & Artificial Radioactivity •Types of Radioactive Radiation •Law of Radioactive Decay •Nuclear Fission •Nuclear Fusion •Applications
1. Which of the following Scientists is not associated with atomic theory? 2. If the atomic masses of hydrogen and helium are 1.007825u and 4.002603u respectively and the neutron is 1.008665u, calculate the binding energy of alpha particle
Electron Properties Motion of Electron in Electric Field Electron in Electric Field Electron in Magnetic Field Light Rays Cathode Rays Cathode Ray Tube Radioactivity Natural and Artificial Radio-Activity Types of Radioactive Radiation Alpha Particles Beta Particles Gamma Deflection of Alpha, Beta Particles & Gamma Ray Radioactive Decay Properties of Nucleus Changes in Nucleus during Radioactive Decay Alpha Particle Emission Beta Decay Gamma Decay Laws of Radioactive Decay Half Life Nuclear Re...
Properties of Electrons, Protons, and Neutrons (The Main Constituents of Ordinary Matter) Mass Charge Wave Electromagnetic Waves and Photons The Electromagnetic Spectrum Types of Electromagnetic Radiation Atoms The Bohr Model of the Hydrogen Atom Kirchoff’s Rules
The Microscope The Compound Microscope The Potentiometer Uses of Potentiometer Measurement of Internal Resistance Calibration of Ammeter The Sonometer Sound Waves; Musical Instruments Precautions in Determining the Velocity of Sound in Tubes Waves and Optics; Mirrors & Lenses Applications/Uses of Curved Mirrors Applications/Uses of Lenses Current Electricity Refraction/Refractive Index
Description of Cathode Ray Tube (CRT) Quick Review on Magnetic Field B Directions of Magnetic Force Charge-to-Mass Ratio
Atomic Structure History of the Atom Daltons Atomic Theory Subatomic Particles Electron Charge of an Electron Thomson: “Plum Pudding” or “Chocolate Chip Cookie” Model Plum Pudding model of an atom Rutherford’s Model of the Atom Two isotopes of sodium Multielectron Atoms Electrons in Orbit about the Nucleus Bohr’s Model of the Atom (1913) The Bohr Model of the Atom: Ground and Excited States The Bohr Model of the Atom: Hydrogen Spectrum Light Emission of Sodium Atom
Wave-Particle Duality of Light Matter Waves Photoelectric Effect Compton Scattering Summary of Photon Properties Heisenberg Microscope and the Uncertainty Principle Photoelectricity Photoelectric Cell and its Mode of Operation Work Function Application of PhotoElectric Emission Life and Atoms The Atom When the atom gets excited or NOT Energy Levels Energy of the Photon Energy Level Diagrams Energy levels Application: Spectroscopy Different Elements = Different Emission Lines Emission Line Spe...
X-Rays Discovery of X-rays Properties of X-rays Continuous Spectrum Characteristic X-Ray Spectrum X-Ray Diffraction Moseley’s Experiment Millikan’s Oil-Drop Experiment
Sources of Electrons Properties Relativistic Mass Properties of Cathode Rays Space Charge Types of Cathode The Deflecting System The Display System The Time Base Uses of the C.R.O.