5.1 Energy & Photosynthesis Chapter 9. Energy:  All organisms require energy for survival  All energy in food ultimately comes from the sun.

Slides:

Advertisements

Similar presentations

Photosynthesis Review

Advertisements

PHOTOSYNTHESIS.

Photosynthesis.

ATP Adenosine Triphosphate (ATP) - One of the principal chemical compounds that living things use to store and release energy.

Photosynthesis.

Ch. 8 & 9 – Photosynthesis and Cellular Respiration.

KEY CONCEPT All cells need chemical energy.

Photosynthesis.

Cellular Energy. I. Energy for Living Things A. Organisms need energy to live B. Energy is the ability to do work.

Cellular Energy Chapter 8.

Chapter 6 & 7 Photosynthesis and Respiration. I. ENERGY: The ability to do work  A. Why do cells need energy? 1) Active Transport 2) Cell division, growth.

Photosynthesis & Energy. PLANTS also known as Producers – Autotrophs make their own food through PHOTOSYNTHESIS.

Photosynthesis Chapter 8.

Photosynthesis Chapter : Energy & Life What is energy? The ability to do work. What is the difference between autotrophs & heterotrophs? Autotrophs.

Chemical Energy and ATP

Energy and Life. Energy Energy is the ability to do work or the capacity to cause change. Autotrophs and Heterotrophs –Autotrophs – make their own food.

Photosynthesis: An Overview Chapter 8. ATP Energy Storage.

Chapter 8-3 Light Dependent and Light Independent Reactions.

Cell Energy  Why do cells need energy?  How can cells store energy?  A molecule called adenosine triphosphate  ATP Energy is stored in ________________.

Photosynthesis. Energy for Life What are autotrophs? Why are they important?

ATP ATP Adenosine Triphosphate (ATP) - One of the principal chemical compounds that living things use to store and release energy Adenosine Triphosphate.

Energy and Life. Energy = the ability to do work –Life on earth depends on a flow of energy –Cells need energy constantly to continue functioning.

Photosynthesis and Chemosynthesis. Energy in a cell  Cells need energy to:  Grow  Reproduce  Live  Energy for these reactions can be stored in glucose.

Chapter 8: Photosynthesis

Chapter 8.  Energy is the ability to do work  All living organisms require energy  To be active (play sports)  Even while resting (cells require energy.

Photosynthesis Used by Autotrophs Plants, Algae, and some Bacteria.

Photosynthesis Review Chapter 8

PHOTOSYNTHESIS. Adenosine Triphosphate (ATP) Energy-storing compound Energy-storing compound Made up of an adenosine compound with 3 phosphate groups.

Photosynthesis. Energy & Life  Energy – the ability to do work; all living things depend on energy  Sun = main source  Autotrophs – producers; have.

Energy and ATP, Photosynthesis and Cellular Respiration.

Photosynthesis. Two main groups of living things: Plants Animals In science we call them…. Autotrophs Heterotrophs.

Chapter 8 - Photosynthesis. Overview of Photosynthesis and Respiration Overview of Photosynthesis and Respiration 3. PHOTOSYNTHESIS 5. RESPIRATION 1.

Photosynthesis Chapter 8. Energy and Life Section 8-1.

ATP ATP Adenosine Triphosphate (ATP) - One of the principal chemical compounds that living things use to store and release energy Adenosine Triphosphate.

4.1 Chemical Energy & ATP 4.2 Overview of Photosynthesis 4.3 Photosynthesis in Detail CELL ENERGY.

Photosynthesis. Pigments of Photosynthesis Pigments are molecules that absorb specific wavelengths (energies) of light and reflect all others. Chlorophyll.

Photosynthesis Biology Chapter Energy and Life Energy is the ability to do work What is work for cells? Plants, algae, and some bacteria use light.

Chapter 8: Photosynthesis

Photosynthesis Chapter 8. Energy in Living Systems…. Energy is the ability to do work. Autotrophs – Living things that can use energy from the sun or.

PHOTOSYNTHESIS. Energy Stored in chemical bonds of compounds. Compounds that store energy: ATP, and NADPH. When bonds are broken, energy is released.

Making Energy for Cells. Energy Energy is needed to maintain homeostasis All energy on earth originates from the sun.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu ATP Energy Adenosine triphosphate Stores and releases chemical energy.

Chapter 8 Photosynthesis. What is this? 8.1 Energy and Life  Nearly every activity in modern society depends on energy.  What kind of energy is used.

5.1 Energy & Photosynthesis Chapter 9. Energy:  All organisms require energy for survival  All energy in food ultimately comes from the sun.

Chapter 8 Photosynthesis.  Energy  the ability to do work  1 st law of thermodynamics  Not created nor destroyed  Transferred or transformed  2.

ADP, ATP and Photosynthesis Copyright Cmassengale.

Energy. ENERGY & LIFE Energy: the ability to do work. Energy comes in many forms: light, heat, electricity, etc. Without energy, living things could not.

Photosynthesis. Energy and Life Living things need energy to survive. This energy comes from food. The energy in most food comes from the sun.

Chapter 8 Photosynthesis *You need to write only what is in white.

Chapter 8 Cellular Energy. 8.1 Vocabulary Energy Thermodynamics Autotroph Heterotroph Metabolism Photosynthesis Cellular Respiration Adenosine Triphosphate.

Biology PHOTOSYNTHESIS REVIEW GAME. Question 1: What is the chemical equation for photosynthesis?

Chapter 8 Test Review.

Photosynthesis and Cellular Respiration Extra Notes.

Cell Energy: Photosynthesis & Respiration

Chapter 8 Photosynthesis

The “What’s” & “How’s” of Photosynthesis

Photosynthesis Objectives: Describe the structure of a chloroplast

Chapter 8 Photosynthesis Part 1

Remember! In order to carry out cellular processes, cells need ENERGY.

Photosynthesis.

Chapter 8 Photosynthesis.

8-1 Photosynthesis.

PHOTOSYNTHESIS.

BELL RINGER What part of the plant produces Fruit?

Bell ringer What is the difference between autotrophs and heterotrophs?

Energy and Photosynthesis

JEOPARDY #1 Photosynthesis By: VanderWal modified by Ashley Robinson

Warm-Up #2(or 3) 11/28/11 Label the statement TRUE or FALSE

Question… Where do you get all of your energy to survive?

Presentation transcript:

5.1 Energy & Photosynthesis Chapter 9

Energy:  All organisms require energy for survival  All energy in food ultimately comes from the sun

Energy: How do we get it?  Make it! Autotrophs  Organisms that make their own food (glucose) using energy from the sun  Examples: plants, algae & some bacteria

Energy: How do we get it?  Eat it! Heterotrophs  Organisms that eat plants or animals to get energy  Examples: animals & fungi

Energy: What’s it all for?  Why do organisms need energy?  To move, breathe & reproduce  Why do cells need energy?  Active transport, cell division & make biomolecules  Where does energy come from?  Food: Carbs – quick energy; Lipids – long term energy

Energy Molecules: ATP ADP

Energy Molecules: ATP  ATP (adenosine triphosphate)  1 ribose (sugar) molecule  3 phosphate groups  Adenine (nitrogenous base)

Energy Molecules: ADP  ADP (adenosine diphosphate)  1 ribose (sugar) molecule  2 phosphate groups  Adenine (nitrogenous base)  Created when ATP loses energy & a phosphate

Energy Molecules

So what happens?  ATP ADP  Bond between 2 nd & 3 rd phosphate is broken  Energy is released  Energy can be used by the cell

So what happens?  ADPATP  Energy is stored when 3 rd phosphate adds to ADP

How do cells get ATP?  Break down carbohydrates & lipids  Creates energy – energy used to make ATP  Where do animals get carbohydrates & lipids from?  Their FOOD  That food is produced by autotrophs in the process of photosynthesis

Photosynthesis  Ability to capture light energy from the sun and change it into chemical bond energy while making oxygen

Photosynthesis Equation 6CO 2 + 6H 2 O + Light energy C 6 H 12 O 6 + 6O 2

Photosynthesis Questions:  Where does it occur in plants?  What are the reactants?  How do the reactants get into the plant?  What are the products?  What happens to the products?

Location?  In the chloroplast of plant cells

Where does it occur?  Chloroplast structure: Thylakoids: Sacs of membrane with pigment molecules Grana: Stacks of thylakoids Stroma: Liquid surrounding thylakoids Contains enzymes for PS

Photosynthesis process  Occur in two steps:  Light-dependent reactions  Purpose: Make energy for light-independent reactions  Light-independent reactions  Also called Calvin cycle  Purpose: Use energy from light reactions to make glucose

Light- dependent Reactions Light- independent Reactions Glucose thylakoid Electrons

Photosynthesis process: light-dependent reactions Location: Thylakoids 1. Light energy is absorbed by chlorophyll 2. Energy used to make ATP 3. Electrons are stored for Calvin Cycle

Photosynthesis process: light-dependent reactions 4. Water is split to produce oxygen and hydrogen atoms  2H 2 O + Light 2H 2 + O 2  Oxygen is released as a product

Photosynthesis process: light-dependent reactions Used: Light energy H2OH2O Made:  ATP  electrons  Oxygen (product) Light-independent rxns

Photosynthesis process: light-independent reactions  Called Calvin cycle  No light required!  Location : Stroma of chloroplast

Photosynthesis process: light-independent reactions 1. ATP broken apart to release energy  ATP ADP + P + energy 2. Energy used to bond electrons with CO 2 to make glucose 1. Equation: CO 2 + H 2 C 6 H 12 O 6 3. ADP goes back to light reactions to get recharged  Turned back into ATP

Photosynthesis process: light-independent reactions Used: CO 2 ATP (from light rxns) Electrons (from light rxns) Made:  GLUCOSE !!!

Photosynthesis review:  Where did the CO 2 come from?  How did water enter the plant?  What absorbed the sunlight?  What reactant is used in the light- independent reactions?

Photosynthesis questions:  What is made in the light-dependent reactions that is used in the light- independent reactions?  What reactant is responsible for making oxygen?

Photosynthesis questions  Where do the light-dependent reactions take place?  Where do the light-independent reactions take place?  What is the final product of the light- independent reactions?

H

Factors that influence PS Rates  Lack of water  Example/Adaptation:  Desert plants/conifers (pines): waxy coating and “needle” leaves to reduce water loss

Factors that influence PS Rates  Temperature : influences enzymes involved in the PS reactions  What is the best temperature?

Factors that Influence PS rates  Intensity of light (varies by plant)  Excess UV rays/sunlight can decrease PS