How much energy does it take to cool and heat up water

For example, in the cooling of ice, you would need to work out:1. The heat required to warm ice from -10 °C to 0 °C2. The heat required to melt ice at 0 °C3. The heat required to warm liquid water from 0 °C to 35 °C.
  • #1
pooker
16
0

Homework Statement



1. How much energy does it take to heat 95.3 grams of water from -10 degrees celcius to 35 degrees celcius?
2. How much energy does it take to cool water from 125 degrees celcius to 75 degrees celcius?



Homework Equations


specific heat of water in solid is 2.06 j/g c
liquid is 6.01 j/g c
gas is 1.84 j/g c

delta h of fusion is 6.01 kj/mol
delta h of vap is 44 kj/mol





The Attempt at a Solution



1.

95.7(2.067)(10) = 1093.18 j = 10.93 kj
5.29(6.01) = 31.79 kj
95.3(4.184)(35) = 13955.77 j = 13.95 kj

answer is 56.7 kj

2
95.3(25)(1.84) = 4384 j = 43.84 kj
5.29(44) = 232.9 kj
25(95.3)(4.184) = 9968.38 j = 99.68 kj

answer is -376.42 kj

Now here is where I am confused. Is it -376.42 kj since it is an endothermic reaction? Or is only part of the reaction negative meaning my answer is completely different? Like when calculating delta h of evaporation would that be positive and the others negative? Or is it right that anytime you cool something off it is all completely negative? My book does not go into detail at all with this. It just gives one answer.
 
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  • #2
Think in terms of energy exchanged between your water and surroundings. To heat up the water it has to gain energy, hence its enthalpy goes up - and enthalpy change for water is positive. Quite the opposite for cooling.
 
  • #3
As Borek said - water has to gain or lose energy to heat and cool, respectively. The enthalpy change is always in relation to the system.

Heating: system gains energy: enthalpy change is positive
Cooling: system loses energy: enthalpy change is negative

pooker said:
Or is it right that anytime you cool something off it is all completely negative?

Yes, that is correct. Cooling an object is always negative, since it will be losing energy. In much the same way, heating an object is always positive.

If you're looking at successive heating and cooling, you would need to work out each cooling and heating segment separately, be weary of signs, and sum the enthalpies.
 

1. How does the energy needed to cool water compare to the energy needed to heat water?

The amount of energy needed to cool water is generally less than the energy needed to heat it. This is because the specific heat capacity of water is higher for heating than for cooling. In other words, it takes more energy to raise the temperature of water by a certain amount compared to how much energy is released when cooling the same amount of water by the same amount.

2. How is the energy used for cooling and heating water calculated?

The energy used to cool or heat water can be calculated using the specific heat capacity of water (4.186 joules per gram per degree Celsius) and the change in temperature. The formula is Q = m x c x ΔT, where Q is the energy in joules, m is the mass of water in grams, c is the specific heat capacity, and ΔT is the change in temperature in degrees Celsius.

3. Does the container or vessel used to cool or heat water affect the energy needed?

Yes, the type of container or vessel used can impact the amount of energy needed to cool or heat water. Materials such as metal or glass have a higher thermal conductivity, meaning they can transfer heat more efficiently and therefore require less energy to cool or heat the water compared to materials with lower thermal conductivity, such as plastic.

4. How does the ambient temperature affect the energy needed to cool or heat water?

The ambient temperature can affect the energy needed to cool or heat water. For example, if the ambient temperature is warmer than the water being cooled, it will take more energy to cool the water to a desired temperature. Similarly, if the ambient temperature is cooler than the water being heated, it will take less energy to heat the water to a desired temperature.

5. Can the energy efficiency of cooling and heating water be improved?

Yes, there are several ways to improve the energy efficiency of cooling and heating water. These include using insulated containers or vessels to reduce heat loss, using more efficient heating or cooling systems, and minimizing the amount of water being cooled or heated. Additionally, using renewable energy sources for heating and cooling can also improve energy efficiency and reduce carbon emissions.

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