Of heating. Or when the lake is exposed to boil because of the temperature.
A solution that has a higher osmotic pressure than body fluids is said to be a <span>hypertonic solution.</span>
Hydrogen, helium, lithium, berylium, boron, carbon, nitrogen, oxygen, florine, neon, sodium, magnesium, alumini, silicon, phosphuros, sulfure, chlorine, argon, postassium, calcium, scandium, titanium, vanadium, chromium magenese
Answer:
386.45 K
Explanation:
We can solve this problem by using <em>Charles' law</em>, which states that at constant pressure:
Where subscript 1 stands for initial conditions of volume and temperature, while 2 stands for the final ones. Meaning that in this case:
- T₁ = 36 °C ⇒ 36 +273.16 = 309.16 K
We<u> input the data</u>:
- 2.0 L * T₂ = 2.5 L * 309.16 K
And <u>solve for T₂</u>:
Found it http://my.ccsd.net/userdocs/documents/uGKpi9UAEwFpSIgE.pdf