Two substance have the same mass and are both initially at 15.0 C. They both absorb 110 J energy. Which substance will have the higher temperature, the one with the higher or lower specific heat? Explain
lower specific heat
specific heat = delta Q/(m*deltaT)
delta t =deltaQ/cm
the lower the specific heat the smaller the number you have to divide by resulting in a larger delta T
oh thanks
To determine which substance will have the higher temperature after absorbing the same amount of energy, we need to consider their specific heats.
The specific heat of a substance is the amount of heat energy required to raise the temperature of one gram of the substance by one degree Celsius. Substances with higher specific heats require more energy to raise their temperature compared to substances with lower specific heats.
In this case, since both substances have the same mass and absorb the same amount of energy (110 J), the substance with the lower specific heat will experience a larger temperature increase compared to the substance with the higher specific heat.
Let's assume Substance A has a higher specific heat and Substance B has a lower specific heat.
Since the specific heat of Substance A is higher, it means it requires more energy to raise its temperature compared to Substance B. Therefore, even though both substances absorb the same amount of energy (110 J), Substance A's temperature will increase by a smaller amount compared to Substance B.
To summarize, the substance with the lower specific heat will have a higher temperature after absorbing the same amount of energy. This is because it requires less energy to raise its temperature compared to a substance with a higher specific heat.