synapse
Skeletal muscle fibers are controlled by a motor neuron at a neuromuscular junction. The motor neuron releases acetylcholine, which triggers an action potential in the muscle fiber, leading to contraction. This connection allows for precise control over muscle movement.
The motor neuron and the muscle fiber it controls constitute a motor unit. This functional unit is essential to the process of muscle contraction and movement in the body. When the motor neuron sends signals to the muscle fiber, it results in the activation and coordination of muscle fibers to produce movement.
The three structural components of a neuromuscular response are the motor neuron, the neuromuscular junction, and the muscle fiber. The motor neuron transmits signals from the brain or spinal cord to the muscle, the neuromuscular junction is where the motor neuron and muscle fiber meet and communicate, and the muscle fiber is the contractile tissue that generates force in response to nerve signals.
acetycholinesterase
they are connected with the rope in the body
motor unitUnit
neuromuscular junction
The point at which a motor neuron synapses with a muscle fiber's motor end plate is called the neuromuscular junction. This is where the nerve impulse is transmitted from the motor neuron to the muscle fiber, leading to muscle contraction.
The axon terminal is located at the end of a motor neuron, where it meets the muscle fiber at the neuromuscular junction (NMJ). This is where communication between the neuron and muscle fiber occurs, allowing for the transmission of signals that trigger muscle contractions.
Sensory Neuron sends info to the brain while the motor sends the info to the muscle fiber.The motor neurone sends a signal from the CNS or PNS to the effector muscle or gland. Therefore the motor neurone sends a signal TO the muscle fibre.
The function of the neuromuscular junction is to transmit signals from the nervous system to the muscles to initiate muscle contraction. It is where the motor neuron meets the muscle fiber, allowing for the release of neurotransmitters that stimulate muscle activity. This junction is essential for voluntary muscle movement and coordination.