to make a graph it is a simple cross. make one line the x axis and the other y axis . now use the center of the cross as 0, now plot the information on freezing and boiling temperatures as points on the graph. x line will b celsius and the other fahrenheit.
Of water, 32 degrees.
Zero degrees Centigrade is the same a 32 degrees Fahrenheit, both mark the freezing point. Therefore 0 degrees Fahrenheit would be much colder than 0 degrees Centigrade.
That depends on the temperature of the air -at cold temperatures well below freezing, about 10 flakes to make an equivalent rain drop. Near freezing, where the flake is wetter, about 4 flakes per drop
alchohol has lower freezing point so it is used in minimum bulb,as it contracts the mercury bar rises in the minimum bulb..
Yes, freezing is change of state, from liquid to solid. Freezing is a physical change, not a chemical change.
32 F or 0 C
It depends on what substance you're referring to. Different liquids have different freezing points. Unless you specify what you're talking about, the answer could range from extremely low temperatures to extremely high temperatures.
320 (freezing) and roughly 700 (over-oxidizing)
The freezing and boiling points of water: 32 and 212 degrees, respectively.
No. It is the freezing point of water at standard atmospheric pressure.Substances can have widely different temperatures at which they change phase from liquid to solid.
Eggs should be kept at temperatures above freezing that are below 45 degrees Fahrenheit. Refrigerators normally keep perishable food between 37 and 41 degrees Fahrenheit, which are perfectly adequate temperatures for storing eggs.
32 oF This is the freezing point of water. The corresponding temperatures for the boiling point of water are 100 oC & 212 oF .
above it will be freezing at 32 degrees Fahrenheit
Daniel Gabriel Fahrenheit (1686-1736) was a German physicist who proposed the funny Fahrenheit temperature scale in 1724. The freezing point of water is 32 degrees Fahrenheit and the boiling point is 212 degrees Fahrenheit. That is placing the boiling and freezing points of water strange 180 degrees apart. On the other hand we got the Celsius scale: there the freezing and boiling points of water are exactly 100 degrees apart. The freezing point of water is 0 degree Celsius and the boiling point is 100 degrees Celsius. Fahrenheit based his scale on the lowest temperature he could achieve with a salt-water "slurpie", the melting point of snow, and normal body temperature. He dealt primarily with meteorlogical temperatures and was not even interested in temperatures as high as boiling water.
-128 degrees Fahrenheit. (32F is freezing).
It is the same and both temperatures indicate the freezing point of water.
Daniel Gabriel Fahrenheit (1686-1736), was a German (Prussian) physicist who proposed a scale of temperatures in 1724. He established fixed points for freezing brine (0 °F), the freezing point of water (32 °F), and the normal human body temperature (which he estimated as 96 °F). He divided the spaces between these points into equal intervals to define a uniform scale of temperatures. Based on Fahrenheit's work, the system was eventually adjusted and refined to establish the boiling point of water as 212 °F with exactly 180 degree intervals between freezing and boiling points. Once widely utilized, the Fahrenheit scale is now used (mainly in the US) for weather and medical temperatures.