The temperature of a system rises by 130°C during a heating process. Express this rise in temperature in kelvins.
Understand the Problem
The question involves converting a temperature change from degrees Celsius to kelvins. Since a change of 1°C is equivalent to a change of 1 K, the solution can be found by directly using the given temperature rise without any additional calculations.
Answer
The temperature change is $10 \text{ K}$.
Answer for screen readers
The temperature change in kelvins is $10 \text{ K}$.
Steps to Solve
- Recognize the equivalence of temperature change
Understand that a change of 1°C corresponds to a change of 1 K. This means that the numerical value of the temperature change remains the same when converting between these two scales.
- Apply the conversion directly
Since we're dealing with a temperature change, simply use the value given for degrees Celsius as the value in kelvins. For example, if the temperature change is 10°C, it is also 10 K.
- Example Conversion
If the problem states the temperature change is $10^\circ C$, then the temperature change in kelvins is:
$$ \Delta T = 10 \text{ K} $$
The temperature change in kelvins is $10 \text{ K}$.
More Information
This situation is a straightforward conversion because the Celsius and Kelvin scales have the same incremental value. Thus, for any temperature change given in degrees Celsius, you can directly equate it to kelvins.
Tips
Common mistakes include misunderstanding the conversion between Celsius and Kelvin, thinking they are completely separate. Remember, it's just the presence of a different zero point, not a different scale for temperature changes.
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