The answer is B.
ATP + Oxygen ---> ADP + P
Explanation:
It is known that the change in Gibb's free energy varies with temperature as follows.
= ![\Delta H(T_{f}) - \Delta C_{p,m} (T - T_{f}) - T[\Delta S(T_{f}) - \Delta C_{p,m} ln (\frac{T}{T_{f}})]](https://tex.z-dn.net/?f=%5CDelta%20H%28T_%7Bf%7D%29%20-%20%5CDelta%20C_%7Bp%2Cm%7D%20%28T%20-%20T_%7Bf%7D%29%20-%20T%5B%5CDelta%20S%28T_%7Bf%7D%29%20-%20%5CDelta%20C_%7Bp%2Cm%7D%20ln%20%28%5Cfrac%7BT%7D%7BT_%7Bf%7D%7D%29%5D)
(assumption)
= 
= 
As, T = 
= (-3 + 273) = 270 K, 
.
Therefore, calculate the change in Gibb's free energy as follows.
= 
= -65.93 J/mol K + 0.62 J/mol K
= -65.31 J/mol K
Thus, we can conclude that Gibbs energy of freezing for the given reaction is -65.31 J/mol K.
Answer: :Change in thermal energy = mass x specific heat capacity x change in temperature.
Explanation: what it basically means is mass x heat x the change in temperature.
In chemistry, neutralization is a chemical reaction in which an acid and a base react quantitatively with each other. In a reaction in water, neutralization results in there being no excess of hydrogen or hydroxide ions present in the solution.
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New substances called SALTS and water are formed in neutralization reactions.
- For example, hydrochloric acid and sodium hydroxide solution react together to form water and sodium chloride solution. The H+ ions and OH– ions produce the water, and the Na+ ions and Cl– ions produce the sodium chloride, NaCl(aq).
a) They are solid at ambient temperatures of 25 ° C and pressure of 1 atm.
b) Ionic compounds represent high temperature melting and boiling.
c) They are hard and brittle and then subjected to the impact, break easily, creating planar faces.
d) When dissolved in water, or pure liquid, carry electrical current due to the existence of ions that move freely and can be attracted by the electrodes, closing the electric circuit.
<span>e) His solvent is water. </span>
