Photosynthesis McCabe 2016-2017.

Slides:

Advertisements

Similar presentations

Photosynthesis !.

Advertisements

Photosynthesis The Flow of Energy.

Photosynthesis. Photosynthesis Photosynthesis is the way that plants make food from sunlight –You take in food which is digested and then transferred.

Photosynthesis. Chloroplast Structure Photosynthetic Reactions 1.Light dependent reactions 2.Light independent reactions (Calvin Cycle)

Photosynthesis Stored Energy. What is Photosynthesis?  plants convert the energy of sunlight into the energy in the chemical bonds of carbohydrates –

Chloroplasts 1. plants (leaves) 2. algae. ADP + Pi + energy*  ATP* *Light energy from the sun Energy captured from sunlight This energy used to drive.

Photosynthesis Chapter 8. Photosynthesis  Reaction  6CO 2 + 6H light = C 6 H 12 O 6 + 6O 2  Photosynthesis uses energy from the sun to convert.

PHOTOSYNTHESIS USES LIGHT ENERGY TO MAKE FOOD

Photosynthesis. I. Introduction A.Goal of photosynthesis To construct food using light energy Food = Glucose Converting radient energy (sun) to Chemical.

Photosynthesis. Energy Autotrophs Use energy from sun to make their own food Heterotrophs Cannot make their own food, so they eat autotrophs or other.

Ch 6 – Photosynthesis process that converts light energy into chemical energy supports most life on Earth found in algae, plants, some bacteria & protista.

PHOTOSYNTHESIS Chapter 10. PHOTOSYNTHESIS Overview: The Process That Feeds the Biosphere Photosynthesis Is the process that converts light (sun) energy.

Photosynthesis. What is it? Photo – light Synthesis – to make The process of converting light energy to chemical energy and storing it as sugar.

Photosynthesis Cellular Energy Unit Part I. Autotrophs  Producers  Photosynthesizing plants, bacteria, and some eukaryotic single celled organisms.

X. PHOTOSYNTHESIS ____________________________________________ – Process of capturing light energy and converting it to chemical energy –Equation: __________________________________.

Photosynthesis Section Leaf structure Pigments and Sunlight Chlorophyll reflects green and some blue and yellow light while it absorbs the energy.

PHOTOSYNTHESIS USES LIGHT ENERGY TO MAKE FOOD. PHOTOSYNTHESIS Process that converts light energy to chemical energy Occurs in chloroplasts of green plants.

Photosynthesis.

Photosynthesis Chapter 7.

Essential Question: How do plants harness the suns energy?

Photosynthesis Biology 2 D. Mitchell. . All life requires energy All life requires energy Almost all energy for life is derived from the sun. Almost all.

INSIDE THE LEAF OF THE PLANT… INSIDE THE CELLS OF THE LEAF… INSIDE THE CHLOROPLASTS OF THE CELLS… 6CO 2 + 6H 2 O (+ light energy) → C 6 H 12 O 6 + 6O 2.

Photosynthesis.

Photosynthesis Conversion of light energy from the sun into chemical energy to make sugar.

Photosynthesis ► A naturally occurring biological process ► Very complex ► It is an endogenic, anabolic reaction resulting in the production of glucose.

Photosynthesis Overview video Photosynthesis 3 mins Overview video Photosynthesis 3 mins.

Photosynthesis Ch. 7.

THE SUN: MAIN SOURCE OF ENERGY FOR LIFE ON EARTH

April 13, 2017 Journal:What three things does a plant need in order to perform photosynthesis?

Photosynthesis.

Energy in A Cell.

Chapter 8: Energy and Photosynthesis

Photosynthesis.

Photosynthesis Chapter 8.

Photosynthesis Chapter 10.

Photosynthesis Long Term Target: HS-LS1-5

Energy can be transformed from one form to another

Photosynthesis Sun ~ ultimate source of energy for all living things.

Video Where do trees get their mass?-Veritasium (Resources Page)

Chloroplasts 1. plants (leaves) 2. algae.

Chapter 8: Photosynthesis

Photosynthesis A naturally occurring biological process Very complex

Photosynthesis Defintition: A molecular process where organisms create energy from sunlight Vocabulary Organelles NADP+ / NADPH ADP / ATP Chlorophyll Chloroplast.

Photosynthesis Essential Standard

PHOTOSYNTHESIS Photosynthesis

Photosynthesis Food from light and air.

Photosynthesis Chapter 10.

Photosynthesis overview

PHOTOSYNTHESIS.

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

Photosynthesis.

Photosynthesis Chapter 10 CO2 + H2O  C6H12O6 + O2.

PHOTOSYNTHESIS.

PHOTOSYNTHESIS.

Photosynthesis song photosynthesis song 2.

Photosynthesis Anabolic reaction of converting light

Chapter 5_2 Photosynthesis.

Chapter 9 Energy in the Cell.

Photosynthesis Biology 2 D. Mitchell.

Photosynthesis.

Photosynthesis.

PHOTOSYNTHESIS: Converting solar energy into chemical energy (SUGARS).

Photosynthesis and Cellular Respiration

Photosynthesis.

Photosynthesis.

8.2 Photosynthesis: An Overview

Converting Light Energy into Chemical Energy

Presentation transcript:

Photosynthesis McCabe 2016-2017

II. Photosynthesis General Photosynthesis = energy transformation which takes raw materials: CO2, H2O, light, enzymes, and chlorophyll to produce glucose, oxygen is produced as a byproduct Synthesis = anabolic reaction Endergonic = where light is the E input Chemosynthesis = found in some bacteria to produce sugars, but it uses chemicals for the E input Organisms that undergo photosynthesis = plants, algae, some bacteria

II. Photosynthesis B. Leaves 1. Broad, thin plant organ where photosynthesis takes place

II. Photosynthesis C. Chloroplast 1. Special membranous organelle where PS takes place

II. Photosynthesis D. Pigments 1. Specialized substances that absorb light 2. Light part of electromagnetic spectrum a. E from sun, divided into 2 parts b. measured in wavelength ( ) c. longest waves are radio waves, shortest are gamma waves 3. Visible spectrum = portion of the EM spectrum we can see a. runs from 380 nm to 750 nm b. colors: (750 nm) R O Y G B I V (380 nm)

II. Photosynthesis D. Pigments 4. Pigments have wavelengths that they absorb & reflect a. chlorophyll = green pigment that absorbs all wavelengths of the visible spectrum except green light which it reflects i. Chlorophyll a = THE MOST IMPORTANT ii. Chlorophyll b = helps chlorophyll A b. accessory pigments = absorb light E at different wavelengths & gives all that E to chlorophyll A i. Carotenes – orange ii. Xenthophylls – yellow iii. Phyobillins – red 5. CO2 & H2O a. CO2 enters leaf thru openings = stomata b. H2O enters plant thru roots

II. Photosynthesis E. PS – The Reactions *The process occurs in two phases 1. light-dependent reactions 2. light-independent reactions (Calvin Cycle, dark reactions)

II. Photosynthesis E. PS – The Reactions Light-Dependent Reactions A. occur in membranes of the thylakoid B. uses light, water, enzymes, chlorophyll C. produces ATP, NADPH2, O2 (does this in 2 photosystems) D. the purpose of the LIGHT REACTIONS is to produce E needed by the light-independent rxns

II. Photosynthesis E. PS – The Reactions 2. Light-Independent Reactions (Calvin Cycle, Dark Rxns) A. occurs in the stroma of the chloroplast B. begins and ends with a 5-carbon compound called RuBP – ribulose biphosphate C. uses CO2, enzymes, 9 ATP, 6 NADPH2 D. produces glucose E. regenerates: ADP, NADP to cycle back to the light-dependent rxns ** Think of NADP as a babysitter for the H2 which are like wild frat boys ** NADP is an electron carrier because the electrons are so high energy that they will not go where needed unless taken by a carrier