Wrong Turn: A Sympathetic Critique of the Civil Rights Movement
This book argues that the antidiscrimination laws should be repudiated and repealed, without allowing the reintroduction of Jim Crow rules, rules mandating segregation (de jure) and discrimination. It will turn out that the same principles which forbid Jim Crow law prohibit antidiscrimination law.
Towards the end of our analysis, this book examines an overlooked arena which offers considerable promise in combating racism: etiquette. We badly need to develop rules of etiquette appropriate for th
Wrong Turn: A Sympathetic Critique of the Civil Rights Movement
This book argues that the antidiscrimination laws should be repudiated and repealed, without allowing the reintroduction of Jim Crow rules, rules mandating segregation (de jure) and discrimination. It will turn out that the same principles which forbid Jim Crow law prohibit antidiscrimination law.
Towards the end of our analysis, this book examines an overlooked arena which offers considerable promise in combating racism: etiquette. We badly need to develop rules of etiquette appropriate for th
Lecture 28: Nervous System 3
MIT 7.012 - Audio - Lecture 28: Nervous System 3 - MIT > MIT OpenCourseWare > Biology > Courses > MIT 7.012 > Audio > Lecture 28: Nervous System 3
Lecture 27: Nervous System 2
MIT 7.012 - Audio - Lecture 27: Nervous System 2 - MIT > MIT OpenCourseWare > Biology > Courses > MIT 7.012 > Audio > Lecture 27: Nervous System 2
Lecture 26: Nervous System 1
MIT 7.012 - Audio - Lecture 26: Nervous System 1 - MIT > MIT OpenCourseWare > Biology > Courses > MIT 7.012 > Audio > Lecture 26: Nervous System 1
"Learning and Memory: Activity-Controlled Gene Expression in the Nervous System, Fall 2009"
"The mammalian brain easily outperforms any computer. It adapts and changes constantly. Most importantly, the brain enables us to continuously learn and remember. What are the molecular mechanisms that lead to learning and memory? What are the cellular roles that activity-regulated gene products play to implement changes in the brain?How do nerve cells, their connections (synapses), and brain circuits change over time to store information? We will discuss the molecular mechanisms of neuronal pla
Lecture 28: Nervous System 3
This course covers the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material. The focus of the c
Lecture 27: Nervous System 2
This course covers the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material. The focus of the c
Lecture 26: Nervous System 1
This course covers the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material. The focus of the c
Nervous System - Richard Malkin, Berkeley Biology
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Exploring the Nervous System
A lesson that focuses on the Autonomic Nervous System and includes sympathetic and parasympathetic processes of the body.
Peripheral Nervous System: Anatomy, Physiology, and Pathology
Duke Neurology of Raleigh's Vinod Krishnan, MD, helps to make sense of the peripheral nervous system.
Histology, sympathetic ganglion x10, (direct/above view)
Histology, sympathetic ganglion x10, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Histology, sympathetic ganglion x4, (direct/above view)
Histology, sympathetic ganglion x4, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
The Nervous System
Intro to Neuroanatomy
7.340 Learning and Memory: Activity-Controlled Gene Expression in the Nervous System (MIT)
The mammalian brain easily outperforms any computer. It adapts and changes constantly. Most importantly, the brain enables us to continuously learn and remember. What are the molecular mechanisms that lead to learning and memory? What are the cellular roles that activity-regulated gene products play to implement changes in the brain?How do nerve cells, their connections (synapses), and brain circuits change over time to store information? We will discuss the molecular mechanisms of neuronal plas
The Central and Peripheral Nervous Systems and the Neuron
Professor George Wolfe discusses the central and peripheral nervous systems and the neuron in this video from Thinkwell's online Biology series. The video uses lecture format along with notes and illustrations on the board. Run time 08:21.
