6.1 Flashcards
Differentiate between kinetic and potential energy.
- Kinetic energy- energy of motion
- Potential energy- stored energy
Identify the source of energy for the biosphere.
the sun
Describe the nature of redox reactions.
2 Chemical reactions act as a coupled redox reaction
Oxidation- atom or molecule loses an electron
Reduction- atom or molecule gains an electron (higher level of energy)
Explain the first law of thermodynamics.
energy cannot be created or destroyed
It just changes from one form to another
During each conversion, some energy is lost as heat
Explain the second law of thermodynamics
entropy is continuously increasing
Energy transformations proceed spontaneously to convert matter from a more ordered (less stable) form to a less ordered (more stable) form
Relate free energy changes to the outcome of chemical reactions.
- Positive changes in free energy (positive ΔG)
More free energy than reactants
Requires input of energy
NOT spontaneous
ENDERgonic- Absorbs energy
- Negative changes in free energy (negative ΔG)
Less free energy than reactants
Spontaneous (may not be instantaneous)
catabolic
EXERgonic- Releases energy
how is the course of a reaction with an enzyme catalyst.
helps destabilize bonds to make the reaction happen easier/faster thus, lowering the activation energy
ΔG remains unchanged
how is the course of a reaction without an enzyme catalyst.
The reaction will take longer than reaction with a catalyst
Activation energy is unchanged
Diagram the structure of ATP
- Ribose- five-carbon sugar
- Adenine
- Chain of 3 phosphates
Describe the role of ATP hydrolysis in driving chemical reactions
(exergonic process) drives endergonic reactions by using the energy released in ATP hydrolysis (due to the breaking off of one phosphate), now endergonic reactions have energy to use
* ATP hydrolysis has a ΔG of -7.3 kcal/mol – exergonic reaction
* When you couple ATP hydrolysis with an endergonic reaction you can make the overall coupled reaction exergonic (negative ΔG)
