02b: Local Potentials

Question 1

In cell, the “resistance” is represented by:

Answer 1

Ion channels that allow movement of charges

Question 2

For a constant density of ion channels, the larger the membrane area, the (larger/smaller) the resistance.

Answer 2

Smaller

Question 3

How does capacitance change from one cell to another?

Answer 3

All cells have about the same Cm value

Question 4

Cm value for typical cell is:

Answer 4

1 (micro)F/cm(squared)

Question 5

What are the factors that determine the time constant?

Answer 5

Product of the membrane’s:

1. Resistance
2. Capacitance

Question 6

T/F: Any local voltage change produced by current across a nerve cell membrane will be affected by its passive properties.

Answer 6

True

Question 7

T/F: Velocity with which nerve fiber conducts A.P. is independent of time constant.

Answer 7

False

Question 8

A short time constant means nerve cell membrane depolarization can be (quicker/delayed/not affected).

Answer 8

Quicker

Question 9

Axons with short time constant have (slower/equal/faster) conduction velocity than other axons.

Answer 9

Faster

Question 10

The space constant represents what?

Answer 10

How far the current will spread along inside of axon

Question 11

(Large/small) lambda means that current will flow (faster/further).

Answer 11

Large; further

Question 12

Current flows further in membrane with (high/low) membrane resistance and (high/low) internal/external resistance.

Answer 12

High; low

Question 13

T/F: Space constant is independent of physical properties of axon/dendrite.

Answer 13

False

Question 14

T/F: Space constant is dependent on width of axon/dendrite.

Answer 14

True

Question 15

A larger axon has a (lower/equal/higher) internal resistance compared to smaller axon.

Answer 15

Lower

Question 16

T/F: An advantage of myelinated axons is that less metabolic E is needed to maintain concentration gradient.

Answer 16

True