the energy of the particles (atoms or molecules) moving within the substance. solids will have the lowest energy, being the coldest, liquids will have intermediate energy and temperature, and gases will have the highest energy and be the hottest. you can think of it as ice, water and steam in terms of temperature. there's another state of matter called plasma but for most purpose this one isn't practical for use.
The way the layer interacts with solar radiation
The way the layer interacts with solar radiation.
There are several factors that can determine the temperature. The ocean currents, wind, height above sea level, clouds and slope of the land all factor in what the temperature is.
Wind, altitude, how close you are to the sea & the angle of the sun determine the weather
The average amount of kinetic energy of the particles in an object.
Kinetic energy is is the energy of motion, it depends on the speed and mass.
The average kinetic energy of the substance
mass; specific heat; the desired temperature difference.
These characteristics depends on chemical composition and structure.
What determines the biological action of solar radiation?
You didn't say of what substance you want to know about. I will assume that you are talking about water. The boiling and freezing point of water are 100 degrees and 0 degrees, respectively.
it's a colligative property of solutions... when you add a higher boiling substance to a solution the boiling point increases and when you add anything that interferes with the intramolecular forces holding the solution together the freezing point decreases.
what is the difference between freezing and boiling point
The melting point of a substance is when a substance turns from a solid to a liquid, and the freezing point is when a substance turns froma liquid to a sold. This of water, t he freezing point, when it turns to a solid (ice) is 0 degrees C. Hope that helps!
Freezing point = 388.4K/115.3 C Boiling point = 717.8K/444.6 C
boiling point, freezing point etc
It's because substances have different boiling point and freezing point. By finding the exact boiling point and freezing point, you can identify a substance. Keep in mind that a material's melting point is the same as its freezing point. These are just different terms for the same thing, it just depends on whether energy is being removed from a substance (freezing) or if energy is being added to a substance (melting). The same thing also applies to the boiling/condensation point.
Yes, boiling point and freezing point are physical properties that are specific to matter. The boiling point refers to the temperature at which a substance changes from a liquid to a gas, while the freezing point is the temperature at which a substance changes from a liquid to a solid. These properties vary depending on the chemical composition of the substance.
No, they are different. For example: The freezing point of water is 32 degrees Fahrenheit, while the boiling point is 212 degrees Fahrenheit.
A boiling point is a point on the temperature scale at which a substance begins to boil. A melting point is a point on the temperature scale at which a substance freezes. Melting and boiling points are unique to different types of elements.
Color, freezing point, or even texture if the substance is solid.
Liquid nitrogen is one whose boiling point is way, way below the freezing point of water.
boiling points are when a substance starts to boil. example- water 32degrees F A boiling point is when a liquid evaporates to form a gas. freezing points are when a substance starts to freeze. example- water 212degrees F A liquid freezes to a solid below its freezing point.
You didn't say of what substance you want to know about. I will assume that you are talking about water. The boiling and freezing point of water are 100 degrees and 0 degrees, respectively.
boiling point = 100 degrees freezing point = 0 degrees is a ploar substance
it's a colligative property of solutions... when you add a higher boiling substance to a solution the boiling point increases and when you add anything that interferes with the intramolecular forces holding the solution together the freezing point decreases.
what is the difference between freezing and boiling point