Answer:
1. The difference in charge across the membrane is called the - membrane potential.
2. It is measured in mV
3. At resting potential, the charge of the outside of the neuron is 70 mV less negative than the inside
4. Once a stimulus changes the membrane potential, the neuron conducts an impulse called a(n) Action Potential
5. This causes the charge outside the cell to temporarily become positive and the inside to temporarily become negative
6. When the action potential arrives at the axon terminal it reaches a junction called the Chemical Synapse
Explanation:
1. The difference in charge across the membrane is called the - membrane potential.
2. It is measured in mV
3. At resting potential, the charge of the outside of the neuron is 70 mV less negative than the inside
4. Once a stimulus changes the membrane potential, the neuron conducts an impulse called a(n) Action Potential
5. This causes the charge outside the cell to temporarily become positive and the inside to temporarily become negative
6. When the action potential arrives at the axon terminal it reaches a junction called the Chemical Synapse
Answer:
1. The difference in charge across the membrane is called the - membrane potential.
2. It is measured in mV.
3. At resting potential, the charge of the outside of the neuron is 70 mV less negative than the inside.
4. Once a stimulus changes the membrane potential, the neuron conducts an impulse called a(n) Action Potential.
5. This causes the charge outside the cell to temporarily become positive and the inside to temporarily become negative.
6. When the action potential arrives at the axon terminal it reaches a junction called the Chemical Synapse.
