Atoms are the small particles of which every element is made up of. The atom possesses the properties of its element.
At Edu Resource, our approach is based on real-world scenarios. We focus on understanding, problem-solving and real-world applications. It is within the context of high school physics programs. This is achieved through tools and techniques that our experts have gathered during their long career teaching physics and merging them with our ecosystem. By using the tools and techniques that our experts have gathered during their long career teaching physics and merging them with our ecosystem, they concentrate on understanding, problem-solving and real-world applications within the context of high school physics programs.
Our realization is that when children know why they are learning what is being taught and how important that knowledge is in the real-world, they start enjoying their studies. Not just that, hands-on applications of physics principles help better develop skills, confidence and understanding of the subject concepts.
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The Physics Resources is an online guide of basic physics principles. The teachings make use of an easy to understand terminology to provide common physics concepts described in a first year physics course.
The movement of objects in 1 dimension is explained using diagrams, words, graphs, numbers and equations.
Newton's 3 laws of motion are described as well as their application towards the research into the motion of objects in 1 dimension is explained.
Vector operations and principles are described and coupled with Newton's laws and kinematic principles to explain, analize and describe the movement of objects in 2 dimensions. Programs include projectiles, riverboat problems, static equilibrium and inclined planes.
The law of conservation of motion and Impulse momentum change theorem are released, described and placed on the evaluation of collisions of objects.
Principles of work, kinetic energy and power are talked about; these principles are combined with work energy theorem use a convenient method of analyzing system of objects or a physical object moving between a preliminary and final state.
The kinematic concepts and Newton's laws of motion are utilized to} explain and describe the movement of objects in circles; certain applications are designed to athletics and roller coasters. Newton's Law of Gravitation is presented then and applied to describe the elliptical and circular motion of satellites and planets.
The variation between temperature and heat is completely explained. The math associated with phase changes and temperature changes is discussed; its application for the science of calorimetry will be presented.
Fundamental principles of electrostatics tend to be introduced in order to describe how objects turn out to be charged and to explain the impact of those charges upon other objects within the neighboring environment.
Charging methods, electrical field lines as well as the importance of lightning rods upon homes are probably the topics mentioned in this unit.
The circulation of charge via electric circuits is described in depth. The variables that cause and prevent the rate of charge circulation are explained and also the mathematical use of electrical principles for series, combination and parallel circuits is obtainable.
The character, behaviors and properties of waves are illustrated and discussed; the unique dynamics of any standing wave is explained and introduced.
The nature of sound like a longitudinal, mechanical strain wave is described and the qualities of sound are mentioned. Wave principles of standing and resonance waves are utilized in an effort to evaluate the physics of music instruments.
The habits of light waves is discussed and introduced; color, polarization, interference and diffraction are introduced as assisting evidence from the wave nature of light. Color notion is discussed in more detail.
The ray character of light can be used to explain exactly how light reflects off of curved and planar surfaces to make both virtual and real images; the type of the images created by concave mirrors, plane mirrors and convex mirrors is completely illustrated.
A ray nature of light is utilized to explain the way light refracts at curved and planar surfaces; Refraction principles and snell's law are employed to explain a number of actual world phenomena; refraction principles are usually combined with ray images to explain exactly why lenses generate images of objects.