a state function basically asks "does it matter how I get there".
Heat is not independent. It depends on the system and surrounding, as well as other factors.
The function of an oil burner is to heat up or vaporize fuel oil for combustion in a furnace or boiler to produce heat. The function of filling water is to ensure that a system, such as a boiler or cooling system, has enough water to operate properly and safely.
Yes, volume is a state function in thermodynamics, meaning it depends only on the initial and final states of a system and not on the path taken to reach those states.
It will change into a gas.Adding heat to or removing heat from a system may result in a temperature change and possibly a change of state. A liquid substance needs heat added to it in order to enter a gaseous state. If enough heat is added to a liquid substance it will change into a gas.
Heat shock proteins are a group of proteins that are produced by cells in response to stressful conditions, such as heat or other environmental stressors. They help maintain proper protein folding, prevent protein aggregation, and assist in protein transport within the cell. Heat shock proteins play a crucial role in cellular protection and survival under stressful conditions.
If the matter is in a liquid state, add heat to turn liquid to vapor. Remove heat to form a solid. If it is in the form of a vapor, remove heat to form a liquid, and remove more heat to form a solid. If it is in the form of a solid, add heat to turn it into a liquid. Add more heat to turn into a vapor.
heat coming from where? heat from a fire isnt, heat from the sun is.
Heat capacity is NOT a path function. It is a STATE function. It depends on the phase of the material, the temperature and the pressure. Usually heat capacity is known at some particular condition and then a calculation is required to estimate it at the condition of interest. Performing these calculations should always result in the same final value no matter the path you took to get to the value - hence it is a STATE function rather than PATH. Path functions would be things like WORK and HEAT (for which the state function "heat capacity" might be used in the calculations)
yes it isnt! :)
Well, honey, heat capacity is a path function because it depends on the specific process or path taken to reach a certain state. It's all about how much heat is needed to change the temperature of a substance, and that can vary depending on the route you take. So, in a nutshell, heat capacity doesn't give a damn about the destination, it's all about the journey.
brazil isnt a STATE its a COUNTRY!
what is heat a thermodynamic function
if something isnt the right shape to do a job, it can't do that job.
little rock isnt a state
The function of the condenser is to release heat from the refrigerant, causing it to condense from a gas to a liquid state. This process increases the pressure of the refrigerant.
Path function: Their magnitudes depend on the path followed during a process as well as the end states. Work (W), heat (Q) are path functions.The cyclic integral of a path function is non-zero. work and heat are path functions.Point Function: They depend on the state only, and not on how a system reaches that state. All properties are point functions.The cyclic integral of a point function is zero. properties are point functions, (ie pressure,volume,temperature and entropy).
A point function is a function whose value depends only on the state of a system at a single point, regardless of the path taken to reach that state. Examples include pressure, temperature, and density. In contrast, a path function depends on the path taken to reach a particular state and not just the initial and final states of a system. Examples include work and heat.
Q is not a state function because it depends on the path taken to reach a particular state, rather than just the initial and final states themselves. This means that the amount of heat transferred as q can vary depending on the specific process or conditions involved.