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Engineering Physics

✴ Engineering physics or engineering science refers to the study of the combined disciplines of physics, mathe...

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Engineering physics or engineering science refers to the study of the combined disciplines of physics, mathematics and engineering, particularly computer, nuclear, electrical, electronic, materials or mechanical engineering. By focusing on the scientific method as a rigorous basis, it seeks ways to apply, design, and develop new solutions in engineering.✴

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

Last update

March 4, 2020

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