Presentation is loading. Please wait.

Presentation is loading. Please wait.

 Have a 1:2:1 ratio of Carbon:Hydrogen:Oxygen  Meaning… They will have the same number of Carbons as Oxygens and twice as many Hydrogens.  Example:

Published byMae McGee Modified over 8 years ago

Similar presentations

Presentation on theme: " Have a 1:2:1 ratio of Carbon:Hydrogen:Oxygen  Meaning… They will have the same number of Carbons as Oxygens and twice as many Hydrogens.  Example:"— Presentation transcript:

1  Have a 1:2:1 ratio of Carbon:Hydrogen:Oxygen  Meaning… They will have the same number of Carbons as Oxygens and twice as many Hydrogens.  Example: Glucose (C 6 H 12 O 6 )

2  Enzyme- special protein that acts as a catalyst in biological processes  Active site- the place on the enzyme where the substrates bind  Substrates- reactants in a chemical reaction than bind to an enzyme  Catalyst- a substance that lowers activation energy which speeds up chemical reaction rates

3  Activation energy- the energy required to get a chemical reaction started  Denature- to alter the physical structure of a molecule so that the molecule loses some of its original properties  Lock & Key- idea that only substrates of the right shape and size will fit a particular enzyme  Reactants- the molecules or elements that react in a chemical reaction to form products

4  Products- the molecules or elements that are made as a result of a chemical reaction  Facilitate- to help; enzymes use energy to help chemical reactions (building, transport, etc.) take place

5  Text this number: (769) 230-3426  Put the code in your text message:  Accelerated code: @4b6f7  Bio I code: @60753  Prebiology code: @prebiol

6 C2.f.

7  In a cell, energy is released when chemical reactions break chemical bonds.  Ex. When we eat, our body breaks down bonds in food to obtain energy.  The main form of energy for living organisms is adenosine triphosphate (ATP).

8  ATP is used to store and release energy.  ATP is made when organisms break down food such as glucose and starch.

9 Adenine (Base) Ribose (sugar) Phosphates (3 = TRI) Adenosine triphosphate

10 di  With only 2 phosphate groups the molecule is ADP, or adenosine di phosphate.  Think of ADP as a battery that is not fully charged. When the extra phosphate group is added, it becomes fully charged and is ready to release energy.

11 ADPATP 23 Half charge Full charge

12  ATP is great for storing energy for a short time but not over long periods.  Cells can use the energy from carbohydrates to add phosphate to ADP to create more ATP when needed.  The energy from ATP is used throughout the cell.  Ex. Active transport, respiration, photosynthesis

13  To release energy, ATP loses one phosphate group.  Breaking this phosphate bond creates ADP and releases energy. ATP – 1 Phosphate ADP + energy Equals

14  ATP stands for Adenosine Triphosphate.  ATP is used to store and release energy.  ATP is made of an adenine base, ribose sugar, and 3 phosphate groups.  To store energy, ADP uses energy from carbohydrates to add a phosphate, which makes ATP.  To release energy, ATP breaks the bond of the last phosphate, which creates ADP.

Download ppt " Have a 1:2:1 ratio of Carbon:Hydrogen:Oxygen  Meaning… They will have the same number of Carbons as Oxygens and twice as many Hydrogens.  Example:"

Similar presentations

Photosynthesis I: Energy and Life

Photosynthesis I: Energy and Life
ATP – The Battery of Life Students will be able to describe the structure and properties of ATP and how it provides energy for the cell.

ATP – The Battery of Life Students will be able to describe the structure and properties of ATP and how it provides energy for the cell.
4.1 Chemical Energy and ATP KEY CONCEPT All cells need chemical energy.

4.1 Chemical Energy and ATP KEY CONCEPT All cells need chemical energy.
Cell Energy and Enzymes Cell Metabolism Metabolism Metabolism The ________________occurring within a living cell The ________________occurring within a.

Cell Energy and Enzymes Cell Metabolism Metabolism Metabolism The ________________occurring within a living cell The ________________occurring within a.
Enzymes & The Need for Energy Section 1: Enzymes.

Enzymes & The Need for Energy Section 1: Enzymes.
Unit 4- Biochemistry, Energy, Enzymes

Unit 4- Biochemistry, Energy, Enzymes
ENZYMES and Activation Energy. What is Energy? Energy is the ability to cause matter to move or change. All life processes are driven by energy Where.

ENZYMES and Activation Energy. What is Energy? Energy is the ability to cause matter to move or change. All life processes are driven by energy Where.
4.1 Chemical Energy and ATP KEY CONCEPT All cells need chemical energy.

4.1 Chemical Energy and ATP KEY CONCEPT All cells need chemical energy.
ENZYMES and Activation Energy

ENZYMES and Activation Energy
ENZYME NOTES. Chemical Reactions Chemical Reaction – process that changes one set of chemicals into another set of chemicals Reactants – elements or compounds.

ENZYME NOTES. Chemical Reactions Chemical Reaction – process that changes one set of chemicals into another set of chemicals Reactants – elements or compounds.
8-1 Energy and Life. Autotrophs and Heterotrophs  Living things need energy to survive.  This energy comes from food. The energy in most food comes.

8-1 Energy and Life. Autotrophs and Heterotrophs  Living things need energy to survive.  This energy comes from food. The energy in most food comes.
ATP & ADP Copyright Cmassengale. What Is ATP? Energy used by all Cells Adenosine Triphosphate Copyright Cmassengale.

ATP & ADP Copyright Cmassengale. What Is ATP? Energy used by all Cells Adenosine Triphosphate Copyright Cmassengale.
 Chemical reactions either store or release energy.

 Chemical reactions either store or release energy.
Mr. Wagner How Organisms Obtain Energy. Vocabulary: Metabolism Photosynthesis Cellular Respiration Adenosine Triphosphate (ATP) Anabolic Catabolic.

Mr. Wagner How Organisms Obtain Energy. Vocabulary: Metabolism Photosynthesis Cellular Respiration Adenosine Triphosphate (ATP) Anabolic Catabolic.
Mav Mark How is energy made available to the cell to move large starch molecules across the membrane through the process of endocytosis? – A. Removing.

Mav Mark How is energy made available to the cell to move large starch molecules across the membrane through the process of endocytosis? – A. Removing.
The Chemistry of Carbon Organic compounds - compounds created by organisms Organic compounds - compounds created by organisms 4 groups of organic compounds.

The Chemistry of Carbon Organic compounds - compounds created by organisms Organic compounds - compounds created by organisms 4 groups of organic compounds.
Energy and Life. Warm up Date 11/11  Define these words  ATP  Heterotroph  Autotroph  photosynthesis.

Energy and Life. Warm up Date 11/11  Define these words  ATP  Heterotroph  Autotroph  photosynthesis.
BIOLOGY I. ATP = Adenosine Triphosphate Is used to store and release energy Is made when organisms break down food Has three parts 1. Adenine 2. Ribose.

BIOLOGY I. ATP = Adenosine Triphosphate Is used to store and release energy Is made when organisms break down food Has three parts 1. Adenine 2. Ribose.
8.1 Energy and ATP. Autotrophs and Heterotrophs  Energy that living things need, originates from the sun  Autotrophs- trap energy from the sun to make.

8.1 Energy and ATP. Autotrophs and Heterotrophs  Energy that living things need, originates from the sun  Autotrophs- trap energy from the sun to make.
Photosynthesis and Cellular Respiration Extra Notes.

Photosynthesis and Cellular Respiration Extra Notes.

Similar presentations

Ads by Google