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∙ 8y agoThat difference is called specific heat capacity. Specific heat capacity is a measure of how much heat energy is required to raise the temperature of a substance by a certain amount, so substances with different specific heat capacities will experience different temperature changes when the same amount of thermal energy is added.
The specific heat capacity of a substance determines how much thermal energy is needed to raise its temperature. Therefore, substances with different specific heat capacities will reach different ending temperatures when the same amount of thermal energy is added. Substances with higher specific heat capacities will have smaller temperature increases compared to substances with lower specific heat capacities.
cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.
The Seebeck effect is the phenomenon where a temperature difference between two different metals or semiconductors creates an electric current. It is the basis for thermoelectric power generation, where heat energy is converted into electricity. This effect is utilized in thermocouples and thermoelectric devices for various applications.
Light refracts because it changes speed when it passes from one medium to another, causing it to change direction. This change in speed is due to light traveling at different velocities in different mediums, which results in the bending of the light rays.
Heat is a form of thermal energy that results from the motion of atoms and molecules within a substance. It is transferred between objects with different temperatures due to the difference in their thermal energy.
The specific heat capacity of a substance determines how much thermal energy is needed to raise its temperature. Therefore, substances with different specific heat capacities will reach different ending temperatures when the same amount of thermal energy is added. Substances with higher specific heat capacities will have smaller temperature increases compared to substances with lower specific heat capacities.
A substance that results in a chemical change is called a reactant. Reactants are substances that are present at the start of a chemical reaction and are transformed into different substances (products) during the reaction.
osmosis
cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.cc (cubic centimeters) is a unit of volume, not of mass. The results vary for different substances, depending on the density of the substance.
Substances that combine or change to form new substances go through a chemical reaction. In a chemical reaction, bonds between atoms are broken and new bonds are formed. This results in the creation of new substances with different properties than the original substances.
Yes, highland climates change with elevation. As elevation increases, temperatures tend to decrease, leading to cooler temperatures and potentially different precipitation patterns. This results in different climate zones, such as alpine climates at high elevations with colder temperatures and different vegetation types compared to lower elevations.
When two or more substances combine chemically, they undergo a chemical reaction where their atoms rearrange to form new chemical bonds. This results in the formation of one or more new substances with different properties than the original substances.
Periodic
the difference is that results are the answers to the observations.
Chemical change always results in the formation of new substances with different chemical properties than the original substances. This can involve the rearrangement of atoms and the breaking or formation of chemical bonds.
They are different operations, giving different results. Example: 1+1=2, 1*1=1.
They are isotopes. They are the same element with a different amount of nuetrons, which can be determined depending upon the Atomic Mass and the atomic number, which results in the changed atomic mass.