Introductory Physics for the Life Sciences / by Simon Mochrie, Claudia De Grandi.

Format:

Book

Author/Creator:

Mochrie, Simon, author.

De Grandi, Claudia, author.

Series:

Undergraduate Texts in Physics, 2510-4128

Language:

English

Subjects (All):

Biophysics.

Biology--Technique.

Biology.

Premedical education.

Mathematical physics.

Biomedical engineering.

Biological Techniques.

Premedical Education.

Mathematical Methods in Physics.

Biomedical Engineering and Bioengineering.

Local Subjects:

Biophysics.

Biological Techniques.

Premedical Education.

Mathematical Methods in Physics.

Biomedical Engineering and Bioengineering.

Physical Description:

1 online resource (860 pages)

Edition:

1st ed. 2023.

Place of Publication:

Cham : Springer International Publishing : Imprint: Springer, 2023.

Summary:

This classroom-tested textbook is an innovative, comprehensive, and forward-looking introductory undergraduate physics course. While it clearly explains physical principles and equips the student with a full range of quantitative tools and methods, the material is firmly grounded in biological relevance and is brought to life with plenty of biological examples throughout. It is designed to be a self-contained text for a two-semester sequence of introductory physics for biology and premedical students, covering kinematics and Newton’s laws, energy, probability, diffusion, rates of change, statistical mechanics, fluids, vibrations, waves, electromagnetism, and optics. Each chapter begins with learning goals, and concludes with a summary of core competencies, allowing for seamless incorporation into the classroom. In addition, each chapter is replete with a wide selection of creative and often surprising examples, activities, computational tasks, and exercises, many of which are inspired by current research topics, making cutting-edge biological physics accessible to the student.

Contents:

Chapter 1. Vectors and kinematics

Chapter 2. Force and momentum: Newton’s laws and how to apply them

Chapter 3. Energy, work, geckos, and ATP

Chapter 4. Probability distributions: Mutations, cancer rates and vision sensitivity

Chapter 5. Random walks: Brownian motion and the tree of life

Chapter 6. Diffusion: Membrane permeability and the rate of actin polymerization

Chapter 7. Rates of change: drugs, infections, and weapons of mass destruction

Chapter 8. Statistical Mechanics: Boltzmann factors, PCR, and Brownian ratchets

Chapter 9. Fluid Mechanics: Laminar flow, blushing, and Murray’s Law

Chapter 10. Oscillations and resonance

Chapter 11. Wave equations: Strings and wind

Chapter 12. Gauss’s law: Charges and electric fields

Chapter 13. Electric potential, capacitors, and dielectrics

Chapter 14. Circuits and dendrites: Charge conservation, Ohm’s law, rate equations, and other old friends

Chapter 15. Optics: refraction, eyes, lenses, microscopes, and telescopes

Chapter 16. Biologic: Genetic circuits and feedback

Chapter 17. Magnetic fields and Ampere’s law

Chapter 18. Faraday’s law and electromagnetic induction

Chapter 19. Maxwell’s equations and then there was light.

Notes:

Includes bibliographical references and index.

Other Format:

Print version: Mochrie, Simon Introductory Physics for the Life Sciences

ISBN:

3-031-05808-9

OCLC:

1376010736