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Handout
Georgia State University

Georgia State University: Hyper Physics: Conservation of Momentum

For Students 9th - 10th
The conservation of momentum is technically explained along with a diagram.
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Handout
Georgia State University

Georgia State University: Hyper Physics: Global Positioning Satellites

For Students 9th - 10th
The physics associated with global positioning satellites is discussed. The mechanism by which they triangulate the location of an object is described.
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Handout
Georgia State University

Georgia State University: Hyper Physics: Circular Orbit

For Students 9th - 10th
The necessity of gravitation to a circular orbit is discussed and equations for the orbital speed are derived from the law of universal gravitation. Binary systems in which two objects orbit about a center of mass are explained and...
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Handout
Georgia State University

Georgia State University: Hyper Physics: Gravity

For Students 9th - 10th
Gravity as a fundamental force is explained and an equation for universal gravitation is given.
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Handout
Georgia State University

Georgia State University: Hyper Physics: Nuclear Fusion

For Students 9th - 10th
This site from Georgia State University provides a lengthy page with a thorough description of the fusion process. Discussion is complemented by excellent graphics and links to further information.
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Handout
Georgia State University

Georgia State University: Hyper Physics: Temperature Standard Points

For Students 9th - 10th
A page on the topic of temperature scales. This section of the page discusses the origins of the standard temperature and pressure values.
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Graphic
Georgia State University

Georgia State University: Hyper Physics: Amides

For Students 9th - 10th
This site gives the basic structure for amides and tells how they are formed.
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Handout
Georgia State University

Georgia State University: Hyper Physics: Paramagnetism

For Students 9th - 10th
This site from the Georgia State University provides a brief introduction to paramagnetism, explaining how paramagnetic materials exhibit magnetization proportional to an applied magnetic field according to Curie's law.