HBS Unit 2.1 Test Jeopardy Template

Organization of Nervous System

Brain Structure & Protection

Lobes & Cortical Function

Neuron Structure & Signaling

Action Potential

100

The brain and spinal cord together make up this system.

CNS

100

The flat bone that protects the brain.

Cranium

100

This lobe is primarily responsible for vision.

Occipital

100

The branch-like structures that receive incoming signals.

Dendrites

100

The resting membrane potential of a neuron (approximate value).

-70 mV

200

All nerves outside the brain and spinal cord belong to this system.

PNS

200

The structure that divides the brain into left and right hemispheres.

Longitudinal fissure

200

This lobe processes sound and contains the auditory cortex.

Temporal

200

The long “tree trunk” that sends impulses away from the cell body.

Axon

200

The membrane voltage at which an action potential is triggered.

-55 mV

300

The PNS is divided into these two major subdivisions.

Somatic & Autonomic

300

These "peaks" increase surface area for higher-level processing.

Gyri

300

This lobe handles decision-making, personality, and emotional regulation.

Frontal

300

The insulating layer that speeds up nerve impulses.

Myelin sheath

300

The phase where Na⁺ rushes into the cell.

Depolarization

400

This subdivision of the PNS controls involuntary actions like heart rate and digestion.

Autonomic Nervouse System

400

These "valleys" separate gyri and allow for increased brain folding.

Sulci

400

This lobe processes touch, taste, and body position.

Parietal

400

The tiny gap where neurotransmitters cross between neurons.

Synapse

400

The phase where K⁺ exits the cell, restoring negativity.

Repolarization

500

Explain why damage to the PNS might not affect thinking but could affect movement or sensation.

CNS = processing; PNS = signal transmission

500

Predict how damage to gyri would affect brain function compared to damage to sulci.

Loss of processing surface vs. separation/folding issues

500

A patient struggles with impulse control and planning—what lobe is likely damaged, and why?

The frontal lobe controls executive function.

500

Explain how myelin loss would affect reaction time and why.

Slower conduction due to signal leakage

500

Why does hyperpolarization occur after an action potential, and how does it protect the neuron?

Prevents continuous firing; ensures one-way signaling