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Catalyst! 3 rd spot in your Do Now. Which bioenergetic reaction converts food in to a usable form of energy, ATP? Which bioenergetic reaction converts the sun’s energy into a chemical form of energy, glucose? Where does this reaction happen?. 10/2/12. ATP. The transfer of energy.
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Catalyst! 3rd spot in your Do Now • Which bioenergetic reaction converts food in to a usable form of energy, ATP? • Which bioenergetic reaction converts the sun’s energy into a chemical form of energy, glucose? • Where does this reaction happen?
10/2/12 ATP
The transfer of energy • All energy on Earth comes from the sun
The transfer of energy • Autotrophs store energy from the sun in matter in a process called photosynthesis. • Autotrophs are also called producers.
The transfer of energy • Heterotrophsget their energy by eating autotrophs. • Heterotrophs are also called consumers.
The transfer of energy • Both autotrophs and heterotrophsrelease the potential energy stored in matter by cell respiration.
The flow of energy The bunny eats the grass for energy Energy from the sun is captured by chloroplasts Mitochondria change the energy made by the chloroplasts into fuel for the grass to grow. Mitochondria change the energy made by the chloroplasts into fuel for the grass to grow.
Complete this worksheet • Bioenergetics, independent practice • Silent • Seated • Solo
Controlled Energy Flow • What is the safest way to get out of a building 5 story building? • Walking down stairs • Jumping out the window • Why?
Controlled Energy Flow • What is the safest way to get out of a building 5 story building? • Walking down stairs • Jumping out the window
Controlled Energy Flow • The reason why going down stairs is less dangerous is because the speed of the drop is controlled. • The fast, big drop is changed into smaller, slower drops. vs.
The same thing happens in your body. • If you released all of the potential energy stored in matter at once, your body would light up in flames.
The Function of ATP • When you digest food, your body transfers small packets of energy from the food that you ate to a biological molecule called Adenosine Triphosphate (ATP). ATP ATP ATP ATP
The Function of ATP • After all of the energy is squeezed out of the food that you ate and transferred to ATP molecules, the dead matter is excreted.
The Function of ATP • ATP is found in every cell of your body. • Every cell in your body uses ATP to do work. • ATP is cellular energy. • Your body is entirely powered by ATP
Practice • Write “Adenosine Triphosphate” • On your paper • On your neighbor’s paper
Gotta get that! • https://www.youtube.com/watch?v=V_xZuCPIHvk
The Structure of ATP • ATP is made of: • Adenine (A) • Ribose (sugar) • 3 phosphates (P)
The structure of ATP Prefixes: Mono 1 Di 2 Tri 3
What is ATP? • Watch as Ms. Kuipers demonstrates the process of converting (changing) energy from food into a form that cells can use. In the space below, record what happens during her demonstration. (What important steps do you think you are observing?)
The Structure of ATP • Energy is stored in between the phosphate bonds.
The Structure of ATP • When a phosphate is broken off of ATP, energy is released. • This is kinetic energy that can be used to do work.
The Structure of ATP • Energy is stored in the new phosphate bond. • This is potential energy that is stored.
It’s a cycle! • 1. Cellular respiration makes ATP by joining phosphate groups to ADP to make the ATP • 2. The cell uses the ATP to do work. As part of this process the chemical bond between the 3rd phosphate group in the ATP is broken and energy is transfered to other molecules of the cell and lost as heat. • 3. ADP and phosphate produced by the breakdown are now recycled into cellular respiration.
Examples: • 2H2 + O2 2H2O
You do it! • Na+ + OH- NaOH
Example NaCl Na+ + Cl-
Try this challenge Question! • AgNO3 + NaCl → AgCl + NaNO3
Which of the following correctly describes how organisms use the ADP molecule? • Organisms release energy for use by removing one phosphate group from the molecule. • Organisms break down maltose into a simpler sugar for use in protein-building. • Organisms absorb energy by adding one phosphate group to the molecule. • Organisms convert ADP into sugar to provide the organisms with a more usable form of energy.