Georgia State University
Georgia State University: Hyper Physics: Heat Conduction
Using understandable words and exceptional graphics, this page describes the transfer of energy by means of conduction. Contains several links to related topics.
Physics4kids
Physics4 Kids: Thermodynamics and Heat: Heat
Explains how heat is created from a chemical reaction, from friction, or from energy inefficiency, as well as the meaning of specific heat capacity.
Other
Applied Thermodynamics: Heat Engines
Forward and reverse heat engines are discussed and explained at this site from Applied Thermodynamics. Diagrams are provided. Efficiency equations are given and discussed.
Other
Warm Air: Heat Loss
An excellent page describing the variables which effect the heat loss through homes. The causes and sources of such heat loss are identified and explained. Lays the groundwork for understanding the importance of and need for home heating...
Other
Warmair.com: Heat Gain
An excellent page describing the variables lead to rising temperatures in the home. The causes and sources of such heat gain are identified and explained. Lays the groundwork for understanding the importance of and need for home air...
ClassFlow
Class Flow: Heat
[Free Registration/Login Required] This flipchart investigates how heat is produced and the effects of heating and cooling and demonstrates how a change in temperature indicates a change in heat. Students will sequence objects according...
Other
Three Methods of Heat Transfer: Conduction, Convection and Radiation
A quick, illustrated overview of the three main methods of heat transfer: conduction, convection, and radiation.
Wikimedia
Wikipedia: Volumetric Heat Capacity
Wikipedia offers a brief definition of the term, "Volumetric heat capacity." Includes hyperlinked terms.
Georgia State University
Georgia State University: Hyper Physics: Heat Engine Concepts: Carnot Cycle
The Carnot cycle is described, illustrated and explained. The Carnot efficiency equation is given and interactive JavaScript form allows the visitor to investigate the effect of the reservoir temperature and the sink temperature upon the...
Georgia State University
Georgia State University: Hyper Physics: Heat Engine Concepts: The Otto Cycle
Schematic diagrams illustrating the operation of a four-stroke engine cycle. Interactive buttons allow you to step through the various steps of each engine cycle. Each graphic is accompanied by an excellent explanation.
Science Education Resource Center at Carleton College
Serc: Heat Transfer Heat Absorption
Young scholars will be given a chance to place their hands on two different objects and then predict on which an ice cube will melt more quickly. Students will make a prediction as to what will happen when balloons filled with air and...
Physics Classroom
The Physics Classroom: Thermal Physics: Calorimeters and Calorimetry
Students learn about calorimeters and calorimetry in this illustrated, interactive physics tutorial.
Upper Canada District School Board
Tom Stretton's Chemistry Pages: Heat and Work Engines
Find out some history behind engines, and learn how thermal energy and work play a part in how engines run.
Georgia State University
Georgia State University: Hyper Physics: Heat and Thermodynamics
Georgia State University Physics Department privides an incredibly thorough treatment of the laws of thermodynamics. Multiple pages; many informative graphics; opportunities to practice problems and receive immediate feedback.
TeachEngineering
Teach Engineering: Let the Sun Shine!
Students learn how the sun can be used for energy. They learn about passive solar heating, lighting and cooking, and active solar engineering technologies (such as photovoltaic arrays and concentrating mirrors) that generate electricity....
FT Exploring
Ft Exploring: The Second Law of Thermodynamics Equilibrium & Heat Engines
Use this illustrated guide to understand equilibrium and heat engines as they relate to the second law of thermodynamics.
Science Struck
Science Struck: Conduction, Convection, and Radiation
Explains the concept of heat transfer and describes conduction, convection, and radiation which are the three modes of heat transfer. Includes formulas, examples, and applications.
OpenSciEd
Open Sci Ed: Net Logo: Conduction in Solids Reduced
This simulation shows conduction of thermal energy within and between solids, based on the kinetic energy of particles, and collisions between neighboring particles.
Climate Literacy
Clean: Solar Water Heater
Student teams design and build solar water heaters to capture energy in the form of solar radiation and convert it to thermal energy. Once the model devices are constructed, learners perform efficiency calculations and compare designs.
TeachEngineering
Teach Engineering: How Hot Is It?
Students learn about the nature of thermal energy, temperature and how materials store thermal energy. They discuss the difference between conduction, convection and radiation of thermal energy, and complete activities in which they...
PBS
Pbs Learning Media: Phases of Matter: Interactive Lesson
Learn about the three phases of matter, and how the addition and removal of thermal energy (also known as heat) affects them.
CK-12 Foundation
Ck 12: Calorimetry
[Free Registration/Login may be required to access all resource tools.] Using diagrams and practice problems, students learn how the units of calories are used to measure the energy of the heat transfer. They also discover how...
Science Education Resource Center at Carleton College
Serc: Getting the Lightbulb to Light Up
Students construct a simple electrical circuit using wires, batteries, and a lightbulb. From constructing a circuit the students will discover that when energy is produced there is heat.
Other
Applied Thermodynamics: Heat Transfer
Heat transfer, rates of heat exchange,conduction, radiation and convection are defined and discussed at this site from Applied Thermodynamics. Well illustrated.