If there is a hot cup of tea and we were asked to add milk and sugar, which mixing order would make the hottest tea?
I personally think that the order doesn't matter, since sugar wouldn't change the temperature of the tea before or after milk. Is it true?
Answer
The fact that sugar does not change the temperature can be true but this means that the time it takes to dissolve the sugar is important. The coffee will cool down exponentially all the time. Then, you drop the milk, which additionally reduces the temperature. But, mixing milk with coffee takes no time. So it will me immediate drop of temperature by some degree.
You can also drop both together and wait until sugar dissolves in the colder beverage. I think this is exactly the flipped order scenario. The milk, dropped into the hotter tea, causes more degrees to drop immediately because, say, when it is as cold as milk, the milk won't cool it down at all. I think that this is because you have an average energy between two masses, of tea and milk. Temperature is proportional to the energy, Tmixed=MTM+mTmM+m=kmTM+mTmkm+m=kTM+Tmk+1.
I think that sugar-first gives you higher temperature because in the first scenario you have shorter period of sugar melting, followed by some degrees lost due to milk. In second scenario, you first lose more degrees due to milk and then will have longer period of sugar melting, which again makes more degrees lost during the melting stage (compared to melting state in the scenario 1). So, since every of two phases causes more dramatic temperature loss in scenario №2, you will end up in colder liquid.
It is difficult to prove formally.
In the first scenario, you have t1 seconds to dissolve the sugar so that temperature drops from T10 to T11 and then additionally drops by T1m.
In the second, initial T20 is reduced by milk to T20-T2m which further exponentially reaches some end temperature during t2 seconds.
The temperature is decaying exponentially, proportionally to the difference between cup and room temperature, something like T(T0,t)=Tr+(T0−Tr)e−at where Tr is the room temperature and t is current time since the beginning of experiment.
Let's have some amount of sugar m, which is solving at speed dm/dt = b*T(t), that is, we loose the sugar proportionally to the temperature. Integrating over time, we can figure out when all sugar is dissolved, ∫t0kT(Tfresh,t)dt=∫t0Trdt+∫t0Trdt+ΔT∫t0e−atdt=Trt+ΔTba(1−e−at)=m.
In the second scenario, we first find Tmilked=(kTfresh+Tm)/(k+1), compute sweetening time t2 given Trt2+(Tmilked−Tr)ba(1−eat2)=m, taking temperature after t2 seconds, Tmilk + sugar=T(Tmilked,t2)
I can hardly contrast Tsugar+milk with Tmilk + sugar.
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