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 What body parts make up the central nervous system? Brain and Spinal Cord BELL RINGER.

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Presentation on theme: " What body parts make up the central nervous system? Brain and Spinal Cord BELL RINGER."— Presentation transcript:

1  What body parts make up the central nervous system? Brain and Spinal Cord BELL RINGER

2 AP Psychology UNIT #3: BIOLOGICAL BASES OF BEHAVIOR MODULE #4: NEURAL AND HORMONAL SYSTEMS

3  Franz Gall invented phrenology – the theory that bumps on our skull could reveal our mental abilities and character traits. PHRENOLOGY  Stupid as it was, it did lead us to realize that different parts of our brains have various particular functions.

4  Neuropsychologists are explore relationships between brain/nervous systems and behavior.  Also called biological psychologists and biopsychologists, they study the link between biology and psychology. NEUROPSYCHOLOGISTS

5  Neuron: a nerve cell; the basic unit of structure and function of your nervous system.  Three major functions: receive information, process it, and transmit it to the rest of your body. STRUCTURE AND FUNCTION OF THE NEURON

6  Cell body (cyton or soma): contains cytoplasm and the nucleus, which directs synthesis of neurotransmitters.  Nucleus: holds all the genetic information of the cell. STRUCTURE AND FUNCTION OF THE NEURON

7 Cell Body Nucleus

8  Dendrites: the branching extensions of a neuron the receives messages and sends impulses to the body.  Axon: the extension of a neuron through which messages pass to other neurons or to muscles or glands.  Axon Terminal: tip of the axon STRUCTURE AND FUNCTION OF THE NEURON

9 Dendrites Axon Axon Terminal Cell Body Nucleus

10  myelin sheath: fatty tissue that insulate the axon and speeds up transmission.  node of Ranvier: gaps between the myelin sheaths.  Schwann’s cells: cells that create myelin. STRUCTURE AND FUNCTION OF THE NEURON

11 Dendrites Axon Myelin Sheath Axon Terminal Schwann’s Cells Cell Body Nucleus Node of Ranvier

12  Excitatory signal neurons to go, while inhibitory signal them to stop.  If excitatory minus inhibitory exceeds a minimum threshold, an action potential (neural impulse) is triggered.  Action potential: a neural impulse; a brief electrical charge that travels down an axon. STRUCTURE AND FUNCTION OF THE NEURON

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14  If your stimulation is not strong enough, your neuron does not fire.  The strength of the action potential is constant whenever it occurs.  This is called the “all-or-none principle.” STRUCTURE AND FUNCTION OF THE NEURON

15  Synapse: the junction between the axon tip of the sending neuron and the dendrite or cell body of the receiving neuron. This gap at this junction is called a synaptic gap or cleft. STRUCTURE AND FUNCTION OF THE NEURON

16  Neurogenesis: growth of new neurons that takes place throughout life. STRUCTURE AND FUNCTION OF THE NEURON

17  neurotransmitters: chemical messengers that travel synaptic gap between neurons.  They are released by one neuron and bind to the receptor sites on the receiving neuron.  Extra neurotransmitters are sent back to the sending neuron in a process called reuptake.  Used by neurons to communicate with each other. STRUCTURE AND FUNCTION OF THE NEURON

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19 NeurotransmitterFunctionToo Much:Too little: NEUROTRANSMITTERS Make a chart like this in your notes. We will go through some neurotransmitters. Fill in the chart as we go along.

20  Acetylcholine (ACh) causes contraction of skeletal muscles, helps regulate heart muscles, is involved in memory, and also transmits messages between the brain and spinal cord.  Lack of ACh is associated with Alzheimer’s disease. NEUROTRANSMITTERS

21 Neurotransmitter FunctionToo Much: Too little: acetylcholine (ACh) muscle movement, memory, transmits messages between brain & spinal cord n/aAlzheimer’s disease NEUROTRANSMITTERS

22  dopamine: stimulates the hypothalamus to synthesize hormones and affects alertness and movement.  Lack of dopamine is associated with Parkinson’s disease.  Too much is associated with schizophrenia. NEUROTRANSMITTERS

23  glutamate: excitatory neurotransmitter involved in information processing throughout the cortex and especially memory formation in the hippocampus.  Too much: Alzheimer’s disease  Too little: Schizophrenia NEUROTRANSMITTERS

24  Serotonin: associated with sexual activity, concentration and attention, moods, and emotions.  Lack of serotonin is associated with depression. NEUROTRANSMITTERS

25  Gamma-Aminobutyric Acid (GABA): inhibits the firing of neurons.  Too little: Huntington’s disease (associated with insufficient GABA-producing neurons in parts of the brain involved in the coordination of movement)  Too much: associated with seizures NEUROTRANSMITTERS

26  Endorphins: natural opiate, body’s painkiller.  Too little is associated with addiction withdrawal. NEUROTRANSMITTERS

27  Other chemicals (drugs like heroine and morphine) can interfere with the action of neurotransmitters.  Agonists: may mimic a neurotransmitter and bind to its receptor site to produce the effect of the neurotransmitter.  Antagonists: block a receptor site inhibiting the effect of the neurotransmitter or agonist. NEUROTRANSMITTERS

28  All of the neurons in your body are organized into your nervous system.  The two major subdivisions are the central nervous system (CNS) and the peripheral nervous system (PNS). ORGANIZATION OF YOUR NERVOUS SYSTEM

29  Central Nervous System (CNS): made up of the brain and spinal cord.  Spinal cord: starts at the base of your back and extends upward to the base of your skull where it joins your brains. ORGANIZATION OF YOUR NERVOUS SYSTEM

30  Info travels through 3 types of neurons:  Sensory neurons: sends information from body’s tissues and sensory organs to brain and spinal cord.  Motor neurons: sends information out from brain/spine to body.  Interneurons: communicates between sensory and motor neurons. ORGANIZATION OF YOUR NERVOUS SYSTEM

31  Peripheral Nervous System (PNS): made up the somatic and autonomic nervous systems, and connects the CNS to the rest of your body.  Somatic Nervous System: Controls the body’s skeletal muscles.  Autonomic Nervous System: Controls the glands and the muscles of the internal organs. ORGANIZATION OF YOUR NERVOUS SYSTEM

32  The Autonomic Nervous System is divided into two parts:  Sympathetic Nervous System: Responses that help your body deal with stressful events, including:  Accelerate your heart beat, raise your blood pressure, slow your digestion, raise your blood sugar, activate your sweat glands, which makes you alert. ORGANIZATION OF YOUR NERVOUS SYSTEM

33  The Autonomic Nervous System is divided into two parts:  Parasympathetic Nervous System: Calms your body to conserve energy.  Comes after sympathetic system restoring digestive processes, returning pupils to normal size, restoring normal bladder contractions, slow breathing and heart rate, etc. ORGANIZATION OF YOUR NERVOUS SYSTEM

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35 Nervous System Peripheral Nervous System Central Nervous System Spinal Cord Autonomic Nervous System Somatic Nervous System Sympathetic Nervous System Parasympathetic Nervous System Brain

36  Reflex: automatic response to stimuli. REFLEX ACTION Hand touches fire. Sensory neurons sends signal to interneurons. Interneurons activate motor neurons to pull hand away. Examples of Reflexes: - Sneezing - Blinking - Shivers - Twitching - Blushing - Yawning

37  Endocrine system: consists of glands that secrete chemical messengers called hormones in your blood.  Hormones are chemical messages that travel to target organs.  When they act on our brain they influence our interest in sex, food, and aggression. THE ENDOCRINE SYSTEM

38  The endocrine system acts like the nervous system, but not nearly as fast. It may take several seconds for messages to be delivered.  Hormones are chemically identical to neurotransmitters.  Its effects are longer lasting and feelings are still there even after the mind has moved on. THE ENDOCRINE SYSTEM

39  Adrenal glands: on top of kidneys and secretes adrenaline (epinephrine) and noradrenaline (norepinephrine), which wakes up the body during stress and prepares it for action.  It increases heart rate, blood pressure, and blood sugar, giving us a surge of energy, thus a surge of adrenaline! THE ENDOCRINE SYSTEM

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41  Hypothalamus: produces hormones that stimulate or inhibit secretion of hormones by the pituitary.  It controls the pituitary gland. THE ENDOCRINE SYSTEM

42  Pituitary gland: most influential gland. Regulates growth and controls the other endocrine glands.  Pituitary gland triggers sex glands to release sex hormones, which influence your brain and behavior. THE ENDOCRINE SYSTEM BrainPituitary Other glands HormonesBrain

43  Thyroid gland: produces thyroxine, which stimulates and maintains metabolic activities.  Lack of thyroxine in children can result in mental retardation. THE ENDOCRINE SYSTEM

44  Pancreas: insulin and glucagon regulate blood sugar that fuels all behavioral processes.  Imbalances result in diabetes and hypoglycemia, respectively. THE ENDOCRINE SYSTEM

45  Ovaries and testes: gonads in females and males respectively, necessary for reproduction and development of secondary sex characteristics. THE ENDOCRINE SYSTEM


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