The temperature affects the amount that these molecules vibrate. At small rates of vibration the connections between the molecules are unbroken so ice is the result. But at greater and greater states of vibration (associated with raised temperatures) the connection break down in successive stages to produce, water, steam, dissociated eklements of the gases (oxygen and hydrogen) and eventually plasma. 5 states are involved here not only the first three, which are more familar to students.
Elements can be classified based on physical states. The states of matter, are solids, gases or liquids, also Plasma is a state of matter similar to gas in which a certain portion of the particles are ionized
both gas and liquid change based on their container.
The oil will change densities based on the temperature. When it gets too hot, it will get less dense and visa versa.
The temperature in a Mercury-based thermometer is read by the level of Mercury found in the thermometer. As Mercury heats up, it expands, therefore raising the level of the Mercury of which we see as a higher temperature. On the other end, as the temperature falls, the Mercury contracts and reads at a lower temperature.
The temperature is absolute zero, a minimum temperature of matter based on continually reduced molecular motion. (Although absolute zero cannot be attained, it is possible to get very very close, to about 170 billionths of a kelvin.) Absolute zero is approximately -273.15 °C
Thermometer is based on the expansion of matter as temperature increases.
Elements can be classified based on physical states. The states of matter, are solids, gases or liquids, also Plasma is a state of matter similar to gas in which a certain portion of the particles are ionized
They melt (liquefy), freeze (solidify), vaporize, or condense.
In a word, temperature. A physical change will change the matter's state based on it's temperature. For example, water, H2O. You can increase the temperature to 212oF and it will change state from a liquid to a gas. You can decrease the temperature to 32oF and it will change state from a liquid to a solid. To answer your question, the process of doing so would be increasing or decreasing temperature of matter.
the matter interacts with other matter because it follows the property of diffusion which is the mixing of 2 types of matters ,it depends on the temperature of the matter and the pressure that how much time will it take to diffuse
Water. The thermodynamic scale of temperature is based on the triple point of water, the temperature at which water coexists in all the three states.
Water. The thermodynamic scale of temperature is based on the triple point of water, the temperature at which water coexists in all the three states.
both gas and liquid change based on their container.
the united states government is based on their ideas
Temperature does not typically change solely based on longitude. Temperature is primarily influenced by factors such as altitude, latitude, proximity to bodies of water or mountains, and prevailing wind patterns. While longitude can indirectly affect temperature through these factors, it is not a direct cause of temperature change.
The most important is the liquefaction of gases.
its H2O , two parts hydrogen one part oxygen otherwise known as water Now all matter (stuff that exists) has different states but is the same material What state the matter is in is dependent on several things some as pressure and temperature Under normal atmospheric pressure water will change states from a solid to liquid at temperatures above 0 degree Celsius. The states of matter are based on the energy and structure of the chemical bonds, at lower temperature there is less energy and more rigid bonding which causes a solid to be well solid At higher temperature there is more energy and the bonds move more and are no longer able to maintain a rigid structure and they turn to a liquid and even high temperature the bonds gain even more energy and bonds break and state becomes a gas So ice,liquid water, and steam are the same thing H2O just each at a different energy state