Because energy is related to the Atomic Mass of the substance (1/2 mv^2 and all that). So, at the same temperature a more massive substance has a greater thermal energy.
You can't. A given volume can have very different amounts of area, depending on the shape.You can't. A given volume can have very different amounts of area, depending on the shape.You can't. A given volume can have very different amounts of area, depending on the shape.You can't. A given volume can have very different amounts of area, depending on the shape.
A mathematical sentence that uses an equal sign to explain the equality of two amounts is called an equation.
Different objects require different amounts of power and the different sizes of batteries give this to him.
An elastic tape measure is a poor idea. Different amounts of pull will make the tape stretch different amounts, causing the same items to appear being of different sizes.
Independent. Nuff said.
specific heat capacities. The substance with the lower specific heat capacity will experience a greater change in temperature compared to the substance with a higher specific heat capacity.
The temperature rise of a substance when heated is determined by its specific heat capacity, which is the amount of energy required to raise the temperature of a given amount of the substance by 1 degree Celsius. If the two substances have different specific heat capacities, then they will exhibit different temperature rises when subjected to the same amount of heat energy. This means that even with the same input of heat energy, one substance may experience a greater temperature increase than the other.
Specific heat capacities. This is a measure of how much heat energy is required to raise the temperature of a substance by a certain amount. Objects with different specific heat capacities will require different amounts of heat to achieve the same temperature change.
The specific heat of substance A is greater than that for substance B. If both sample sizes are the same and they both start at the same temperature and equal amounts of heat are added to both these samples, substance A will have a lower temperature than substance B.
osmosis
Yes, different liquids have different coefficients of volume expansion, which means they expand by different amounts for the same increase in temperature. This is because the molecular structure and composition of liquids vary, leading to different responses to changes in temperature.
Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.Yes, if you know the density of the substance. Different substances have different densities, i.e., different amounts of mass per volume. mg is a measure of mass, ml is a measure of volume.
Yes, under the same physical conditions influencing volume that is true (e.g. temperature and pressure).
Both mixtures and pure substances have measurable and observable chemical properties and physical properties. A liquid mixture vaporizes over a temperature range; whereas, a pure substance boils at a fixed temperature.
osmosis
osmosis
Yes, two objects can have the same temperature but different amounts of mass. Temperature is a measure of the average kinetic energy of particles in an object, while mass is the amount of matter in an object. So, it is possible for objects with different masses to have the same kinetic energy and therefore the same temperature.