We use cookies to enhance your experience on our website. By continuing to use our website, you are agreeing to our use of cookies. You can change your cookie settings at any time. Find out more

This item is not yet published. Orders will be supplied on publication.


Cover

Biological Science

Exploring the Science of Life, Biomedical Edition

Jon Scott, Gus Cameron, Anne Goodenough, Dawn Hawkins, Jenny Koenig, Martin Luck, Despo Papachristodoulou, Alison Snape, Kay Yeoman, and Mark Goodwin

June 2022

ISBN: 9780198783695

896 pages
Paperback
276x219mm

Price: £44.99

More than any other general biology text, Biological Science: Exploring the Science of Life, Biomedical Edition encourages students to be active learners. It sets them on a path towards a deeper understanding of the key biological concepts that underpin the study of biomedical science and allied disciplines, and a greater appreciation of biology as a dynamic experimental science.

Share:

Description

A fresh approach to biology centred on a clear narrative, active learning, and confidence with quantitative concepts and scientific enquiry. Designed for flexible learning, it will give you a deeper understanding of the key concepts, and an appreciation of biology as a dynamic experimental science.

  • Motivates the reader to take their first steps on the journey to becoming an independent researcher, using a narrative and numerous learning features that demonstrate the experimental basis of biological science, and the importance of the scientific method and scientific enquiry.
  • Builds a robust understanding of the essential concepts that underpin biological science as a discipline onto which more advanced study can be layered: this is emphatically not a catalogue of knowledge to be remembered, but a resource that introduces concepts to be understood.
  • Incorporates quantitative skills as a central component of the study and investigation of biological science, so that students learn to see the value of quantitative tools in better understanding biological systems than something to be feared.
  • Coverage is tailored to the needs of biomedical science-oriented students, keeping all topics relevant to this audience.
  • Encapsulates a rich learning experience that fosters active learning, problem-solving ability and critical thinking and accommodates different learning preferences - with a focus on the enhancement of understanding, not the testing of knowledge.
  • Also available as an ebook with functionality, navigation features, and links that offer extra learning support

About the Author(s)

Jon Scott, Emeritus Professor of Bioscience Education, University of Leicester, Gus Cameron, Reader in Biomedical Science Education, School of Biochemistry, University of Bristol, Anne Goodenough, Professor in Applied Ecology, University of Gloucestershire, Dawn Hawkins, Reader, Faculty of Science and Engineering, Anglia Ruskin University, Jenny Koenig, Assistant Professor in Pharmacology, Therapeutics and Toxicology, Faculty of Medicine & Health Sciences, University of Nottingham, Martin Luck, Emeritus Professor of Physiological Education, University of Nottingham, Despo Papachristodoulou, Reader of Medical Education, King's College London, Alison Snape, Reader in Bioscience Education, King's College London, Kay Yeoman, Professor of Science Communication, School of Biological Sciences, University of East Anglia, and Mark Goodwin, Associate Professor in the Department of Genetics and Genome Biology, University of Leicester

Table of Contents

    Life and its Exploration: Foundational Principles
    Topic 1: Exploring the science of life
    Topic 2: The emergence of life on Earth
    Topic 3: Defining Life
    Topic 4: Evolutionary processes
    Topic 5: The diversity, organisation, and classification of life
    Quantitative Toolkits
    Quantitative Toolkit 1: Understanding data
    Quantitative Toolkit 2: Size and scale
    Quantitative Toolkit 3: Describing data
    Quantitative Toolkit 4: Ratio and proportion
    Quantitative Toolkit 5: Understanding samples
    Quantitative Toolkit 6: Designing experiments
    Quantitative Toolkit 7: Assessing patterns
    Quantitative Toolkit 8: Formulae and equations
    Quantitative Toolkit 9: Rates of change
    Module 1 LIFE AT THE MOLECULAR LEVEL
    1:Building blocks: molecules and macromolecules
    2:Energy: powering biochemical processes
    3:Information: genes and genomes
    4:Mendelian genetics
    5:Reading the genome: gene expression and protein synthesis
    6:Proteins and proteomes
    7:Metabolism: energy capture and release from food
    8:Molecular tools and techniques
    Module 2 LIFE AT THE CELLULAR LEVEL
    9:Characteristics of prokaryotic and eukaryotic cells
    10:Cell division in prokaryotes and eukaryotes
    11:Microbial diversity
    12:The growth, measurement, and visualisation of cells
    13:Microbes in life: harnessing their power
    14:Microbes as agents of infectious disease
    15:Viruses
    Module 3 THE HUMAN ORGANISM: TISSUES, ORGANS, AND SYSTEMS
    16:Physiology overview
    17:Communication and control 1: introducing the nervous and endocrine systems
    18:Communication and control 2: sensory systems
    19:Communication and control 3: controlling organ systems
    20:Muscle and movement
    21:Cardiovascular system
    22:Respiratory system
    23:Exercise physiology
    24:Renal system
    25:Digestive system
    26:Reproductive system
    27:Immune system

Related Titles