Brain send the message via nerve impulses involving neurons which use the neuro-transmitter Acetylcholine
Each nerve impulse begins in the dendrites of a neuron's. the impulse move rapidly toward the neuron's cell body and then down the axon until it reaches the axon tip.a nerve impulse travels along the neuron in the form of electrical and chemical signals.
Acetylcholine- a neurotransmitter released at the neuromuscular junction triggers a muscle action potential, which leads to muscle contraction.
Into your spinal cord, to the specific nerve(s) dealing with what muscle's are to be moved.
The cerebellum in the brain.
there is something called the nerve cell and it runs through your spine and tells the brain what you want to do
Voluntary Movement is that of an object that moves itself by its own will. Involuntary Movement would be that of an object that moves automatically, by species or habit.
A simple phrase as "I want the game", it will make individuals start thinking.
Prosencephlon (Forebrain), Mesencephalon (midbrain), and Rhombencephalon (hindbrain). The components of the forebrain include: Cerebral Cortex, Olfactory bulb, Thalamus, and Hypothalamus. The components of the hindbrain includes: Cerebellum, Pons, and Medulla.
When you want to move a muscle, your brain sends a message out to the muscle you want to move, and the muscle sends a message back to your brain that your moving it and where.
Your brain thinks, "I want to move here." Then your brain sends a message to your muscles telling them to move where you want to go.
Many parts of the brain control your muscles. There is a part of the brain called the Central Nerve System or CNS located towards the center of the brain. This are controls your nerves and movement. Everytime you want to move a body part, your brain sends a message lightning speed to your nerves and that is how you move. Without the Central Nerve System, you would be paralized and unable to move.
It sends an impulse to the hand area to move so basically it sends impulses to tell the hand what to do cause its the command center
The primary motor cortex in the brain controls voluntary muscle movements. It is located in the frontal lobe of the brain and sends signals to the muscles via the spinal cord to initiate movement. Additionally, other areas of the brain, such as the cerebellum and basal ganglia, play a role in coordinating and fine-tuning muscle movements.
To move a voluntary muscle, you just want to do it. When you want to walk, the nervous system sends a signal to the brain and the skeletal muscle to move your legs. So you are making your leg move by voluntary muscle, which is skeletal muscle.
A combination of events move part of the body.The brain sends a signal via the nervous system to the part you want to move.The muscles receive the signal and move.
A combination of events move part of the body.The brain sends a signal via the nervous system to the part you want to move.The muscles receive the signal and move.
Lets say you want to move an arm, the brain sends a small electrical message along our nerve cells to the muscles. When the message reaches the end of the nerve cell it stops, but it then causes a special chemical, called a neurotransmitter spills out just next to a special place of the muscle, which is known as the receptor site. If you want to understand this in a basic form, it would be: we have them so we can move parts of our body. Hope it helped. - Azad Prestek
Your brain sends messages depending on what you want to do, and your body listens
The brain and nerves work like a telephone system in our body. Nerves allow messages to be passed around our body. Our brain sends messages via nerves to our body telling it to do things. For example, when I want to pick something up, my brain sends a message through my nerves to the muscles in my arm and hand making them move and pick something up. When I'm sitting in a chair my brain is constantly sending little messages to the muscles in my back telling them to keep my back straight so that I don't fall off the chair - sometimes you don't even know when your brain is sending messages to your body Our brain also receives messages from our body.