| A | B |
|---|
| Heat transfer | Conduction-Convection-Radiation |
| Heat | thermal energy |
| Tempature | the amount of heat or cold |
| Heat capacity | the highest heat can go |
| Thermal equilibrium | when cold and hot measure out to be even |
| Lord Kelvin(William Thomson) | 1848 Ð Defined most extreme cold has to be null value. |
| Anders Celsius | 1742 Ð 0 degrees was the boiling point and 100 degrees was the freezing point |
| Linnaeus | 1744 Ð Reversed Anders CelsiusÕ scale and made it as we know today. |
| Fahrenheit | 1724 Ð Proposed the first tempature scale based on three points |
| 1848 | Lord Kelvin (William Thomson) defined most extreme cold |
| Most extreme cold | has to have null value Ð has the same increments/coefficeints as Celsius. |
| 1742 | Anders Celsius invented the Celsius scale. |
| O degrees Celsius | boiling point |
| 100 degrees Celsius | freezing point |
| 1744 | Linneaus reversed Anders Celsius scale and turned it into what we know today. |
| 1724 | Fahrenheit proposed first tempature scale based on three points. |
| 0 degrees | 32 degrees |
| He created his tempature scale based on three points instead of two | Fahrenheit |
| The ÔcolorÕ that we see when all visable light is reflected off an object | white |
| This is the order of phases (4) by decreasing energy (most to least) | PGLS (plasma |
| One millionth of a degree K | the temperature at which weÕve gotten closest to absolute zero in a lab. |
| He invented air conditioning in 1902 | Willis Carrier |
| Sea breezes and land breezes are examples of these | Convection currents |
| Measured kinetic energy and reported it for the first time | James Joules |
| Has a definite volume and definite shape | Solid |
| A cup of hot tea sits on a table overnight and cools | An example of Thermal Equilibrium |
| -459 degrees F | absolute zero (0 K) |
| The ÒproposedÓ fifth state of matter that occurs near absolute zero | Bose-Einstein Condensate |
