Answer :
Answer:
Answer is A:The number of motor units that are activated
Explanation:
The frequency of motor neuron action potentials in each motor unit .
The motor unit consists of motor neuron and skeletal muscle fibers and together group of motor unit work in co-ordination to undergo contraction of the muscle. The motor neuron is a type of neuron which helps in sending signal to muscles and hence helps in its muscle contraction. These motor neurons originate within the spinal cord and hence helps in controlling the contraction and relaxation of the muscle. Depending on the number of motor units activated, it will define the degree of muscle contraction. When a greater number of motor units are activated, it will increase the rate of contraction. The frequency and rate at which each of the motor unit generates and send an action potential also helps in determining the contraction degree. When it generates higher action potential, it will relay the signal faster leading to varying degree of muscle contraction.
Answer:
a. the number of motor units that are activated.
b. the frequency of motor neuron action potentials in each motor unit.
Explanation:
When the need arise to increase the rate of contraction of skeletal muscles, input signals are sent to the brain. Output signal from the brain arrive as a simultaneous increase of active motor units within the muscles.This is represented as increase in Acetycholine neurotransmitters secretions diffusion across the synapse, more Ligand gated ion channels opening, more depolarisation, and action potentials propagation and generation. As a results there is rapid increase in Excitatory Post Synaptic Potential( EPSP) and increase in degree of Skeletal muscle contraction.
An increase in amount of depolarization, and therefore action potential generated, increases the frequencies of action potential at the receptors(receptor potential).This results in the degree of skeletal muscle contraction, because the increased action potential frequency is above the threshold levels to elicits responses in the muscle cells.