DNA: What do all of these plants have in common?.

Slides:

Advertisements

Similar presentations

Oxidation and reduction – always take place together

Advertisements

An Overview of Photosynthesis Most of the energy used by almost all living cells ultimately comes from the sun  plants, algae, and some bacteria capture.

Photosynthesis AP Biology Unit 4.

PHOTOSYNTHESIS.

The Working Cell: Energy from Sunlight

Trapping the Sun’s Energy

Photosynthesis Part I.

Photosynthesis 6H CO 2  C 6 H 12 O 6 + 6O 2.

Today’s Objectives Given information and/or diagrams on the process of photosynthesis, write and/or identify the equation, raw materials, sites, products,

PHOTOSYNTHESIS.

Objectives: 4(B) Investigate and explain cellular processes, including homeostasis, energy conversions, transport of molecules, and synthesis of new molecules.

Photosynthesis. ATP Adenosine Triphosphate is the energy currency of the cell. It does not get destroyed (just like money), but cycles between 2 states.

PHOTOSYNTHESIS USES LIGHT ENERGY TO MAKE FOOD

Photosynthesis  Is defined as…  A process by which light energy is converted into chemical energy  Where does this take place?  In the chloroplasts.

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

Photosynthesis: The Reaction. Recap…….. 6 CO H 2 0  C 6 H 12 O O 2 Q&feature=related.

Photosynthesis and Cellular Respiration

Chapter 8 Photosynthesis.

PHOTOSYNTHESIS How plants use the sun’s energy to make sugar Occurs in the chloroplasts of plant cells I.The process is broken into 3 sets of reactions.

6.1 Capturing the Energy in Light 6.2 The Calvin Cycle

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

Chapter 6 Photosynthesis

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

What color does chlorophyll reflect? 2. What organisms can make their own energy (there are at least 4 correct answers)? Question of the Day.

What is Photosynthesis?

Photosynthesis Photosynthesis. I. How do living things get the energy they need to live? Photosynthesis: The process by which plants (autotrophs) and.

LG 5 Outline Photosynthesis

Chapter 6 Photosynthesis.

Overview of Photosynthesis

Photosynthesis Capturing sunlight to produce organic compounds.

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.

Photosynthesis.

Chapter 5 part 1 Photosynthesis. Energy in living systems -photosynthesis: the process of converting light energy into chemical energy -Autotrophs: make.

Photosynthesis. What is it?  Photosynthesis is the process of converting light energy to chemical energy and storing it in the bonds of sugar.  Plants.

What color does chlorophyll reflect? 2. What organisms can make their own energy (there are at least 4 correct answers)? Question of the Day.

DO NOW Please hand in homework into the bin. Then Answer ◦ How do we see colors? ◦ Which color has the longest wavelength? The shortest? ◦ What pigments.

1. Pick up a copy of the notes and the diagram.. The Light Reactions.

The Light-Independent Reactions (Dark Reactions) Chapter Pgs BUT FIRST! A review of yesterday’s Light-Dependent Reactions: Photosystems.

Photosynthesis in Detail. Photosynthesis: An Overview Autotrophs are the producers of the biosphere. Most use photosynthesis to produce organic compounds.

DO NOW A tree begins as a seed, where does all the mass (the stuff that makes up the wood, and roots and leaves) come from?

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

The pigment in leaves that reflects green light and absorbs red-orange and violet blue Chlorophyll.

Define photosynthesis.

Energy in Living Systems

Cell Energy: Photosynthesis & Respiration

Photosynthesis.

Autotrophic Nutrition

Photosynthesis.

6.1 Capturing the Energy in Light 6.2 The Calvin Cycle

Harvesting Light Energy

11/14/2018 Photosynthesis.

Bio: Announcements Take out coloring WS to be checked from last class if you did not get it stamped Work on chloroplast do now Note: I will be out of.

Photosynthesis: Life from Light and Air

Photosynthesis.

Chapter 8 Section 2: Photosynthesis

Photosynthesis.

Process of Photosynthesis

Photosynthesis: Life from Light and Air

Photosynthesis Chapter 10.

Photosynthesis.

Photosynthesis.

5.2 Notes…continued Analyze the function of electron transport chains in the second stage of photosynthesis. Relate the Calvin cycle to carbon dioxide.

Photosynthesis Chapter 6.

Photosynthesis Chapter 6.

Chapter 6 Photosynthesis.

Photosynthesis Biology 2 D. Mitchell.

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

Autotrophic Nutrition

PHOTOSYNTHESIS The process by which plants and plant-like organisms make glucose from sunlight.

8.2 Photosynthesis: An Overview

Presentation transcript:

DNA: What do all of these plants have in common?

Photosynthesis, Part 1

What Is Photosynthesis? The conversion of light energy to chemical energy Light energy = photons from the sun Chemical energy = glucose

What do we start and end with? EQUATION: 6CO 2 + 6H 2 O + light  C 6 H 12 O 6 + 6O 2 The molecules on the left side are the reactants. This is what the plant already has and will use The plant uses carbon dioxide, water, and light energy to make… The products. These are the molecules on the right side. The products are glucose (a simple carbohydrate) and oxygen.

Where does photosynthesis occur?

The Pathway

Why are plants green? Pigments are compounds that absorb and reflect specific kinds of light energy The pigment most important for photosynthesis is chlorophyll Chlorophyll reflects green and absorbs other colors (wavelengths) The wavelengths absorbed from the sun provide the energy for photosynthesis

LET’S EXPLORE PIGMENTS! Set up your lab You will need: – Filter Paper – Beaker – Penny – Leaf – Tape – Pencil Observe the demo from the teacher for instructions When you are finished, answer the following questions in your lab notebook: 1. What are the products of photosynthesis? 2. Where does photosynthesis occur? 3. You see a student wearing a red shirt. What wavelengths (colors) is the shirt reflecting? Absorbing?

DNA: Write the equation for photosynthesis. Under the equation, list the names of the chemicals that are shown in the equation. (ex: CO 2 is Carbon Dioxide)

Photosynthesis, Part 2

The Pathway The Light Reactions Requires sunlight Takes light energy and generates energy that can be used by the cell to synthesize food (glucose) Oxygen is a waste product of the light reactions The Dark Reactions Does not require sunlight Uses the energy from the light reactions + carbon dioxide to make sugar The sugar can then be used by the plant for food

Who Cares? How does photosynthesis affect us?

EQUATION : 6CO 2 + 6H 2 O + light  C 6 H 12 O 6 + 6O 2 What are the products? What do people breathe in? What do people eat? What do people breathe out? Plants and animals are in symbiosis

Answer in your notebook: 1.What is symbiosis? 2. Why are plants and animals in symbiosis?

Photosynthesis, Part 3

The Light Reactions

The Light Reactions - Structure Occurs in the thylakoid membrane of the chloroplast In the membrane of the thylakoid, there are two very important proteins: Photosystem I and II This is where the light reactions will occur

The Light Reactions

The Light Reactions – Process 1. Light hits a protein called Photosystem II. The energy from the light “excites” an electron, which passes through a series of proteins to… 2. Photosystem I. Light hits this system, exciting the electron again. 3. The electron is finally added to make a substance called NADPH.

The Light Reactions – Process, Cont. Two very important things happen while the light reactions are going on: – Water is split: The oxygen is released as a waste product, the electron replaces the one lost in PSII, and the hydrogen is pumped into the thylakoid against the concentration gradient (active transport) – As the hydrogen flows back out, it produces energy via chemiosmosis

Time to finish your lab! Answer the following questions in your lab notebook as your exit ticket. Your notebook must be checked by the teacher BEFORE YOU LEAVE! – What color is the most abundant (is there a lot of)? – What other colors do you see? – What are these colors called? – How do these colors assist in photosynthesis? – What property of water allowed the rubbing alcohol to travel up the paper strip?

Photosynthesis, Part 4

The Dark Reactions

…a.k.a. The Calvin Cycle

The Calvin Cycle Occurs in the stroma (fluid surrounding the thylakoids)

The Steps Part 1: Carbon Fixation – Carbon Dioxide and a five carbon compound called RuBP combine to form 12 three carbon compounds called 3-PGA. Part 2: Reduction – 3-PGA is turned into a new three carbon compound called G3P. This requires the energy made during the light reactions (ATP and NADPH)

The Steps The G3P created will become glucose, which can be used by the entire plant for food and energy Part 3: Regeneration – More energy is used to make more RuBP to start the cycle over again This is a cycle. It will continue to turn again and again unless the plant does not have enough energy or carbon dioxide

Alternate Pathways Some plants, such as cacti, have developed other ways to fix carbon These pathways are called C3, C4, and CAM These pathways are found in plants that live in extreme environments, and help prevent water loss and other dangers

Choose any part of photosynthesis that interests you. Draw an illustration representing your part. Write at least two key facts under your illustration.