Its a path function......but DISPLACEMENT is a state function.Distance depends on the path we followed from one state to another but displacement is a straight distance so it depends upon the states.
State quantities are dependent on path,and path quantities do not depend on path.for example:we want to travel from one city to another and we have different routes to travel by,so the distance traveled depends on that which one route is taken,so the distance traveled is a path quantity,well the city current where we are at times does not depend on the path we took,so it is state quantity
Linear speed is defined as the speed that the body moves in a linear path. It is the distance that is traveled within a given time for a linear path.
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).
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)
Point function and path function are found in Thermodynamics.
Its a path function......but DISPLACEMENT is a state function.Distance depends on the path we followed from one state to another but displacement is a straight distance so it depends upon the states.
State quantities are dependent on path,and path quantities do not depend on path.for example:we want to travel from one city to another and we have different routes to travel by,so the distance traveled depends on that which one route is taken,so the distance traveled is a path quantity,well the city current where we are at times does not depend on the path we took,so it is state quantity
distance
displacement is equal to the distance you traveled when the object is moving at shortest path
state function did not depend on the path , it depends on the initial and final point of the system where as path function depends on the path of the reaction.
Hodos ("path") and metron ("measure") are Greek roots that form the word odometer, which means "a measure of distance traveled."
Linear speed is defined as the speed that the body moves in a linear path. It is the distance that is traveled within a given time for a linear path.
No, entropy is a state function.
The largest tornado on record was 2.6 miles wide. It traveled a distance of 16 miles near El Reno, OK on May 31, 2013. The longest tornado path on record was 219 miles from the Tri-State tornado of 1925. This, however, is a measure of distance traveled rather than size.
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).
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)
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)