Impulses typically move in one direction along a neuron, from the dendrites to the cell body, then down the axon to the axon terminals. This directional flow helps ensure that signals are transmitted efficiently and accurately within the nervous system.
To move in a backward motion or direction is to move in the opposite direction as usual, such as walking, running, or driving in reverse.
An applied force will move an object in the direction of the force.
The box will move in the direction of the stronger force. If the forces are equal, the box may not move or move very slowly.
The object moves in the direction of its motion.
When you move the slide up, the image on the microscope appears to move down. This is because microscope slides have an inverted image orientation, meaning that moving the slide in one direction causes the image to move in the opposite direction.
Your neurons are adapted in such a way that impulses move only in one direction.
Nerve impulses travel one direction because of the action potential which is created because of Na+ and when K+ returns to normal.
by neurons
Motor Neurons
MOTOR neurons
The major difference is the direction of travel for nerve impulses. In the afferent nervous system, the impulses are traveling away from the brain - these tend to be motor impulses. In the efferent nervous system, the impulses are traveling towards the brain - these tend to be sensory impulses.
sensory nerve cells
up the bum and around the hole
No there are many local loops. This is particularly true in the digestive system where the peristaltic contractions have many within gut circuits.
In what direction did the tropical cyclone move?
they are so hot especially zayn and Liam
To move in a backward motion or direction is to move in the opposite direction as usual, such as walking, running, or driving in reverse.