FileTitleManuscript Id
Chapter 35 Introductionmorris2e_ch35_1.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_1_dlap.xml563bc4c8757a2e3f2d000000
35.1 Nervous System Function and Evolution morris2e_ch35_2.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_2_dlap.xml563bc4c8757a2e3f2d000000
Animal nervous systems have three types of nerve cell. morris2e_ch35_3.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_3_dlap.xml563bc4c8757a2e3f2d000000
Nervous systems range from simple to complex. morris2e_ch35_4.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_4_dlap.xml563bc4c8757a2e3f2d000000
Case 7: What body features arose as adaptations for successful predation? morris2e_ch35_5.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_5_dlap.xml563bc4c8757a2e3f2d000000
35.2 Neuron Structure morris2e_ch35_6.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_6_dlap.xml563bc4c8757a2e3f2d000000
Neurons share a common organization. morris2e_ch35_7.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_7_dlap.xml563bc4c8757a2e3f2d000000
Neurons differ in size and shape. morris2e_ch35_8.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_8_dlap.xml563bc4c8757a2e3f2d000000
Neurons are supported by other types of cell. morris2e_ch35_9.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_9_dlap.xml563bc4c8757a2e3f2d000000
35.3 Neuron Function morris2e_ch35_10.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_10_dlap.xml563bc4c8757a2e3f2d000000
The resting membrane potential is negative and results in part from the movement of potassium ions. morris2e_ch35_11.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_11_dlap.xml563bc4c8757a2e3f2d000000
Neurons are excitable cells that transmit information by action potentials. morris2e_ch35_12.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_12_dlap.xml563bc4c8757a2e3f2d000000
Neurons propagate action potentials along their axons by sequentially opening and closing adjacent Na+ and K+ ion channels. morris2e_ch35_13.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_13_dlap.xml563bc4c8757a2e3f2d000000
Neurons communicate at synapses. morris2e_ch35_14.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_14_dlap.xml563bc4c8757a2e3f2d000000
Signals between neurons can be excitatory or inhibitory. morris2e_ch35_15.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_15_dlap.xml563bc4c8757a2e3f2d000000
35.4 Nervous System Organization morris2e_ch35_16.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_16_dlap.xml563bc4c8757a2e3f2d000000
Nervous systems are organized into peripheral and central components. morris2e_ch35_17.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_17_dlap.xml563bc4c8757a2e3f2d000000
Peripheral nervous systems have voluntary and involuntary components. morris2e_ch35_18.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_18_dlap.xml563bc4c8757a2e3f2d000000
The nervous system helps to maintain homeostasis. morris2e_ch35_19.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_19_dlap.xml563bc4c8757a2e3f2d000000
Simple reflex circuits provide rapid responses to stimuli. morris2e_ch35_20.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_20_dlap.xml563bc4c8757a2e3f2d000000
Chapter 35 Summarymorris2e_ch35_21.html563bc4c8757a2e3f2d000000
DLAP questionsmorris2e_ch35_21_dlap.xml563bc4c8757a2e3f2d000000