►This Engineering Physics App that might be suitable for you if you are interested in newly developing areas of physics, instrumentation and communications, have an avid interest in technology and a passion for physics. Skills like problem-solving, observation skills, numerical aptitude, practical thinking and reasoning are important for this field. Technical know-how is beneficial and professionals in this field should be able to communicate their ideas to others with clarity, precision and imagination in a way that captures the interest of others. Engineering physics stresses the application of fundamental scientific principles to the design of equipment.✦
【Few Topics Covered in this App are Listed Below】
⇢ Difference Between Crystalline and Non crystalline Solids
⇢ Properties of Crystalline and Non crystalline Solids
⇢ Unit Cells: A Three-Dimensional Graph
⇢ Unit Cells: NaCl and ZnS
⇢ Unit Cells: Measuring the Distance Between Particles
⇢ Unit Cells: Determining the Unit Cell of a Crystal
⇢ Unit Cells: Calculating Metallic or Ionic Radii
⇢ THE STRUCTURE OF CRYSTALS
⇢ The Seven Crystal Systems
⇢ PROPERTIES OF MATTER AND THERMAL PHYSICS
⇢ Stress & Strain
⇢ Stress Strain Curve Explanation
⇢ Modes of Heat Transfer – Conduction, Convection & Radiation
⇢ Thermal conductivity
⇢ Newton's Law of Cooling
⇢ Blackbody Radiation
⇢ Kinematics
⇢ Scalars and Vectors
⇢ Distance and Displacement
⇢ Speed and Velocity
⇢ Velocity as a Vector Quantity
⇢ Calculating Average Speed and Average Velocity
⇢ Average Speed versus Instantaneous Speed
⇢ Acceleration
⇢ The Meaning of Constant Acceleration
⇢ Calculating the Average Acceleration
⇢ Free Fall Motion
⇢ Falling with Air Resistance
⇢ Double Trouble (a.k.a., Two Body Problems)
⇢ Newton's Third Law of Motion
⇢ Double Trouble in 2 Dimensions (a.k.a., Two Body Problems)
⇢ The Impulse-Momentum Change Theorem
⇢ Momentum as a Vector Quantity
⇢ Momentum Conservation Principle
⇢ Equal and Opposite Momentum Changes
⇢ Solving Explosion Momentum Problems
⇢ Analysis of Situations Involving External Forces
⇢ Analysis of Situations in Which Mechanical Energy is conserved
⇢ Application and Practice Questions
⇢ Bar Chart Illustrations
⇢ Circular Motion and Satellite Motion
⇢ Acceleration
⇢ The Centripetal Force Requirement
⇢ The Forbidden F-Word
⇢ Mathematics of Circular Motion
⇢ Grounding - the Removal of a Charge
⇢ Charge Interactions Revisited
⇢ Coulomb's Law
⇢ Inverse Square Law
⇢ Newton's Laws and the Electrical Force
⇢ Electric Fields
⇢ Electric Field Intensity
⇢ Circuit Connections
⇢ Two Types of Connections
⇢ Series Circuits
⇢ Parallel Circuits
⇢ Combination Circuits
⇢ Waves
⇢ Properties of Periodic Motion
⇢ Pendulum Motion
⇢ Motion of a Mass on a Spring
⇢ The Nature of a Wave
⇢ What is a Wave?
⇢ Categories of Waves
⇢ The Speed of a Wave
⇢ The Wave Equation
⇢ Behaviour of Waves
⇢ Reflection, Refraction, and Diffraction
⇢ Interference of Waves
⇢ The Doppler Effect
⇢ Standing Waves
⇢ Formation of Standing Waves
⇢ Nodes and Anti-nodes
⇢ Harmonics and Patterns
⇢ Mathematics of Standing Waves
⇢ Sound Waves and Music
⇢ Spherical Aberration
⇢ Convex Mirrors
⇢ Ray Diagrams - Convex Mirrors
⇢ The Direction of Bending
⇢ If I Were an Archer Fish
⇢ The Mathematics of Refraction
⇢ Snell's Law
⇢ Ray Tracing and Problem-Solving
⇢ Total Internal Reflection
⇢ The Critical Angle
⇢ Interesting Refraction Phenomena
⇢ Rainbow Formation
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