ATI TEAS 7 Book Online Resources

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Section I Reading
Key Ideas and Details
 2 Topics
Main Ideas, Topic Sentences, and Supporting Details
Summarizing Text and Using Text Features
Craft and Structure
 3 Topics
Tone, Mood, and Transition Words
The Author’s Purpose and Point of View
Evaluating and Integrating Data
Integration of Knowledge and Ideas
 3 Topics
Facts, Opinions, and Evaluating an Argument
Understanding Primary Sources, Making Inferences, and Drawing Conclusions
Types of Passages, Text Structures, Genre and Theme
Section II Mathematics
Numbers and Basic Operations
 6 Topics
Basic Addition and Subtraction
Basic Multiplication and Division
Decimals and Fractions
Addition and Subtraction of Fractions
Multiplication and Division of Fractions
Ratios, Proportions, and Percentages
Measurement and Data
 4 Topics
Standards of Measure
Interpreting Graphics
Similarity, Right Triangles, and Trigonometry
Circles
Algebra
 3 Topics
Equations with One Variable
Solving Real-World Mathematical Problems
Powers & Exponents, Roots & Radicals, with Polynomials
Section III Science
Human Anatomy and Physiology: Organization of Systems
 6 Topics
Organization of the Human Body
The Cardiovascular System
The Respiratory System
The Gastrointestinal System
The Urinary System
The Reproductive System
Human Anatomy and Physiology: Integration and Control
 3 Topics
The Nervous System
The Endocrine System
The Lymphatic System
Human Anatomy and Physiology: Support and Movement
 3 Topics
The Skeletal System
The Muscular System
The Integumentary System
Scientific Reasoning
 6 Topics
Designing an Experiment
The Foundations of Biology
Cell Structure, Function, and Type
Cellular Reproduction
Cellular Respiration and Photosynthesis
Genetics and DNA
An Introduction to Chemistry
 6 Topics
Scientific Notation
States of Matter
Properties of Matter
Chemical Bonds
Chemical Solutions
Acids and Bases
Section IV English and Language Usage
Conventions of Standard English
 3 Topics
Spelling
Capitalization
Punctuation
Parts of Speech
 5 Topics
Nouns
Pronouns
Adjectives and Adverbs
Conjunctions and Prepositions
Verbs and Verb Tenses
Knowledge of Language
 4 Topics
Subject and Verb Agreement
Types of Sentences
Types of Clauses
Formal and Informal Language
Vocabulary Acquisition
 3 Topics
Root Words, Prefixes and Suffixes
Context Clues and Multiple Meaning Words
The Writing Process
ATI TEAS 7 Practice Tests
TEAS 7 Practice Test 1 Diagnostic
 4 Test Sections
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Practice Test 3
 4 Test Sections
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Practice Test 4
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Practice Test 5
 4 Test Sections
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Practice Test 6
 4 Test Sections
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Practice Test 7
 4 Test Sections
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Practice Test 8
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Cellular Respiration and Photosynthesis

ATI TEAS 7 Book Online Resources Scientific Reasoning Cellular Respiration and Photosynthesis

Cellular Respiration and Photosynthesis

Cell Respiration

Once cells have been made, they need to be powered. Plants and some other cells can capture the energy of light and convert it into stored energy in ATP. However, most prokaryotic cells and all eukaryotic cells can perform a metabolic process called cellular respiration. Cellular respiration is the process by which the mitochondria of a cell break down glucose to produce energy in the form of ATP. The following is the general equation for cellular respiration:

O2 + C6H12O6 → CO2 + H2O +ATP


Reactions during cellular respiration occur in the following sequence:

  1. Glycolysis: One molecule of glucose breaks down into two smaller sugar molecules called pyruvate. This is an anaerobic process, which means it does not need oxygen to be present. Glycolysis takes place in the cell’s cytoplasm. End product yield from this reaction per one glucose molecule is:

    • two molecules of ATP

    • two molecules of pyruvate

    • two molecules of NADH

  2. Oxidation of pyruvate: Pyruvate is converted into acetyl coA in the mitochondrial matrix. This transition reaction must happen for pyruvate to enter the next phase of cellular respiration. Pyruvate is oxidized, which means it loses two electrons and a hydrogen molecule. This results in the formation of NADH and loss of CO2.

  3. Citric acid cycle: Also called the Krebs cycle, during this cycle an acetyl group detaches from the coenzyme A in the acetyl coA molecule. This process is aerobic, which means it must occur in the presence of oxygen. The net yield per one glucose molecule is:

    • two molecules of ATP

    • six molecules of NADH

    • two molecules of FADH2

    • four molecules of CO2

  4. Electron transport chain: This process happens in the inner mitochondrial membrane. It consists of a series of enzymatic reactions. Both NADH and FADH2 molecules are passed through a series of enzymes so that electrons and protons can be released from them. During this process, energy is released and used to fuel chemiosmosis. During chemiosmosis, protons are transported across the inner mitochondrial membrane to the outer mitochondrial compartment. This flow of protons drives the process of ATP synthesis. This step of cellular respiration creates an approximate net yield of 34 ATP per glucose molecule. Six molecules of water are also formed at the end of the electron transport chain.

Keep In Mind

Cellular respiration requires oxygen, but there are forms of fermentation that extract energy from food without using oxygen. Fermentation can be either alcoholic (makes ethanol as an end product, like yeast in the brewing of beer) or lactic acid type. Lactic acid is produced in a person’s muscles during strenuous activity when the body cannot move enough oxygen to the cells.

Did You Know?

The citric acid cycle is not identical for all organisms. Plants have some differences in terms of the enzymes used and energy carriers produced.

Photosynthesis

Photosynthesis is the process plants use to make a food source from energy. This process can be thought of as the reverse of cellular respiration. Instead of glucose being broken down into carbon dioxide to create energy-containing molecules, energy is captured from the sun and used to turn carbon dioxide into glucose (and other organic chemicals the plant needs). The energy source is the sun. The reaction for photosynthesis is shown below:

CO2 + H2O → C6H12O6 + O2

Energy is captured from the sun and used to turn carbon dioxide into glucose (and other organic chemicals). Chloroplasts are organelles in plants that contain green chlorophyll, which helps the plants absorb light from the sun.

The photosynthetic reaction involves two distinct phases: light reactions and dark reactions. Light-dependent reactions require light to produce ATP and NADPH. During dark reactions, also known as the Calvin cycle, light is not required. These reactions use ATP and NAPDH to produce sugar molecules like glucose.

Let’s Review

  • Cells are powered by cellular respiration and/or photosynthesis.

  • Cellular respiration is the process where mitochondria of a cell break down glucose (sugar molecules) to produce energy in the form of ATP. The general equation for cellular respiration is: O2 + C6H12O6 → CO2 + H2O + ATP

  • Reactions during cellular respiration go from glycolysis to the citric acid cycle to the electron transport chain.

  • Photosynthesis is the process plants use to make a food source from energy. Chloroplasts contain chlorophyll, which helps plants absorb light from the sun.

  • Photosynthesis is considered the reverse of cellular respiration. The general equation is: (ATP) + CO2 + H2O → C6H12O6 + O2

  • The reaction involves two distinct phases: light reactions and dark reactions. Light-dependent reactions require light to produce ATP and NADPH. The dark reactions, also known as the Calvin Cycle, do not require light and use ATP and NADPH from the light reactions to produce glucose and oxygen.

Cellular Respiration and Photosynthesis Flashcards

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