object a has a specific heat of 0.568 j/[(g)(°C)] and object B has a specific heat of 1.34 J/[(g)(°C)]. which o ject A or B will heat up faster and why
Is is A because it is closer to 0?
yes, it's A
because the specific heat is lower, it takes less heat to raise the temperature
a greater temperature change for a given amount of heat means that the temperature changes faster
To determine which object, A or B, will heat up faster, we need to consider the specific heat values and their relationship to heat transfer.
The specific heat of a substance measures how much energy is required to raise the temperature of a given mass of the substance by 1 degree Celsius (or 1 Kelvin). A lower value of specific heat indicates that the substance requires less energy to heat up compared to a substance with a higher specific heat.
In this case, object A has a specific heat of 0.568 J/[(g)(°C)], while object B has a specific heat of 1.34 J/[(g)(°C)]. Therefore, object A has a lower specific heat compared to object B.
When two objects of the same mass are heated with the same amount of energy, the object with the lower specific heat will experience a greater increase in temperature. This is because the lower specific heat means less heat energy is needed to raise its temperature.
So, based on the specific heat values, object A will heat up faster than object B when the same amount of heat energy is applied to both objects. The reason is that object A requires less energy to increase its temperature compared to object B. The specific heat value being closer to 0 does not directly indicate a faster heating rate but rather a lower energy requirement for temperature increase.