Time it takes to reach equilibrium

In summary: So, if you have two reservoirs at different temperatures, the metal ball will reach the target temperature faster in the hotter reservoir.
  • #1
Pengwuino
Gold Member
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Ok let's say i have a metal ball at 50 C and 2 thermal reservoirs at 300 C and 500 C.

Will the metal ball reach 200C faster in the 300C or 500C reservoir? (Sorry the title name is misleading). Basically, the question is there a relation between temperature and the time it takes to transfer energy or is the tim relationship only dependant on the type of material being used?
 
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  • #2
Peng,

Hint: What if one reservoir were at 200 degrees. How long would it take for the ball to get to 200 degrees?
 
  • #3
Thats what i want to know and i want to know the relationship to the temperature. Will the ball reach 200 faster in a 300C reservoir or a 500C reservoir? Or is the time it takes only dependant on the materials used.
 
  • #4
Heat transfer is always a function of the difference in temperature, so given a ball at 50 C, if the only difference is environment temperature, it will warm faster in the hotter environment.
 
  • #5
Newton's law of cooling (or heating): Heat moves from the hotter environment to the cooler at a rate proportional to the difference in temperatures. In this case, the heat moves from the reservoir to the metal ball at a rate proportional to the difference in temperatures: heat moves faster from the higher temperature environment and so the ball heats faster.
 
  • #6
Whats the formula for this?
 
  • #7
[tex]q = h*a \Delta T[/tex] where:

q = rate of heat transfer (watts usually)
h = heat transfer coefficient (in w/m^2*K)
a = effective area (m^2)
Delta T = temperature difference (K)

You may also see it in the form of:
[tex]q'' = h \Delta T[/tex] where:

q'' = heat density in W/m^2
 
Last edited:
  • #8
Pengwuino said:
Thats what i want to know and i want to know the relationship to the temperature. Will the ball reach 200 faster in a 300C reservoir or a 500C reservoir? Or is the time it takes only dependant on the materials used.
You missed the point of jdavel's hint. If the reservoir itself is at exactly 200C, it will take an infinitely long time to reach 200C. So, is that not indicative of what your answer should be ?

The shape of the heating/cooling curve is an exponential growth/decay. The driving force is the temperature gradient.
 

What is equilibrium?

Equilibrium is a state in which a system has reached a balance between opposing forces or reactions. In the context of time, it is the point at which the rate of change of a reaction is equal to the rate of its reverse reaction.

Why is it important to know the time it takes to reach equilibrium?

Understanding the time it takes for a system to reach equilibrium is crucial in many scientific fields, such as chemistry, physics, and biology. It allows us to predict and control the behavior of systems and reactions, which can have practical applications in industries such as medicine and environmental science.

What factors affect the time it takes to reach equilibrium?

The time it takes to reach equilibrium depends on several factors, including the nature of the reaction, the concentration of reactants and products, temperature, pressure, and the presence of catalysts or inhibitors. These factors can either speed up or slow down the rate of reaction, thus affecting the time it takes to reach equilibrium.

Can the time it takes to reach equilibrium be changed?

Yes, the time it takes to reach equilibrium can be altered by changing the conditions of the system. For example, increasing the temperature or concentration of reactants can speed up the reaction and reduce the time to reach equilibrium. Conversely, decreasing the temperature or concentration can slow down the reaction and increase the time to reach equilibrium.

Is it possible to reach equilibrium instantly?

No, it is not possible to reach equilibrium instantly. The time it takes to reach equilibrium depends on the speed of the reaction, which is influenced by the factors mentioned above. While some reactions may reach equilibrium quickly, others may take days, months, or even years to reach equilibrium.

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