0
The heating curve for Mercury illustrates the changes in temperature and phase as mercury is heated from solid to liquid and then to gas. Initially, mercury starts as a solid at low temperatures, where it heats up until it reaches its melting point (−38.83 °C), transitioning to a liquid state. As the temperature continues to rise, the liquid mercury heats until it reaches its boiling point (356.73 °C), at which point it vaporizes into a gas. The curve shows plateaus during the phase changes where temperature remains constant while the substance transitions between solid, liquid, and gas phases.
What else can I help you with?
Heating curve illustrates what?
When a substance is heated, a heating curve shows the changes in temperature as well as the physical state of the substance. A heating curve can chart the temperature versus the time elapsed as the changes take place.
What is a substance whose meniscus would curve downward?
Mercury's meniscus curves down. Water's meniscus curves up.
Difference between learning curve and experience curve?
difference between leaning curve and experience curve
What is difference between individual supply curve and market supply curve?
The difference between individual supply curve and the market supply curve is tat individual supply curve is like a firm. To be able to get the market supply curve you have to have the individual supply curve.
What is needed to dertermine the equilibrium of a good or service?
by finding where the supply curve and the demand curve intersect
What is the difference between a heating curve and a cooling curve?
heating curve is hotter than the cooling curve
Heating curve illustrates what?
When a substance is heated, a heating curve shows the changes in temperature as well as the physical state of the substance. A heating curve can chart the temperature versus the time elapsed as the changes take place.
Heating solid mercury to gas mercury?
yes
How would the heating curve for glass be different from the heating curve for water?
The heating curve for glass would show a gradual and steady increase in temperature until it reaches its softening point, where it begins to deform. In contrast, the heating curve for water would show a relatively stable temperature increase until it reaches its boiling point, at which point the temperature remains constant until all the water has evaporated.
What does The flat part of a heating curve indicates?
That is the boiling point
Can mercury over heat?
Mercury can be heated and will then evaporate. Whether that is overheating depends on why you are heating it in the first place. It will not be distorted or burned, etc., by heating.
what is the dependent variable in heating and cooling curve water?
it must be an atom
A heating curve shows?
When a substance is heated, a heating curve shows the changes in temperature as well as the physical state of the substance. A heating curve can chart the temperature versus the time elapsed as the changes take place.
Where can i get a Mercury mountaineer heating system diagram?
It is important to have a diagram when repairing a heating system in a car. A Mercury Mountaineer heating system diagram can be found in its maintenance manual that can be found at auto part stores.
Does Mercury have oxygon?
Mercury has no oxygen because itsbacterias could not developpe with the heating of the Sun
Suppose you heated frozen alcohol instead of ice how would the heating curve for alcohol be similar to and different from the heating curve for water?
The heating curve for frozen alcohol would be similar to water in that it will initially warm up until reaching its melting point, then heat continues to go into breaking bonds (lattice) without a temperature increase. However, the specific heat capacity and melting point of alcohol are different from water, so the temperature changes and plateau durations would vary.
What's the difference between heatting curve of water and heating curve of glass?
The heating curve of water and the heating curve of glass are similar in that they both illustrate the relationship between the temperature of the substance and the amount of energy added to it as it is heated. However, there are some key differences between the two curves. One major difference is that water has a much higher specific heat capacity than glass. This means that water requires more energy to raise its temperature by a certain amount than glass does. As a result, the heating curve for water will be flatter than the heating curve for glass, indicating that it takes more energy to raise the temperature of water. Another difference is that water has a phase change (melting and boiling) at certain temperature ranges, whereas glass does not. So, the heating curve of water will have a steep increase in temperature at the freezing point and the boiling point, indicating the energy absorbed during the phase changes. Additionally, the thermal expansion coefficient of water is much higher than that of glass, meaning that water expands much more than glass when heated, which also affects the heating curve. In summary, the heating curve of water is flatter and has more steep increases due to phase changes and thermal expansion, while the heating curve of glass is steeper and does not have phase changes. John Carlo Coronado
