Control and Coordination Definition Mechanism and Types
We, humans, are able to perform control and coordination processes through the nervous system. The process of sleeping, touching any object and changing our path on the road by listening to the honk, all are controlled by our nervous system. The same goes for animals too. Control and coordination in animals are as similar as humans. The nervous system helps in controlling and coordinating different activities of the human body. There are three types of nervous systems in our body- cranial nerves, spinal nerves and visceral nerves. All these run through our body sending and receiving messages.
What are Control and Coordination?
We humans have five senses of organs in our body, eyes, nose, tongue and skin, called receptors. In other words, control and coordination in humans’ take place through the nervous system and hormonal system called the Endocrine System. A receptor is a group of cells in the sense of an organ acting sensitive to a particular type of action or message in the form of light, sound or heat. All receptors send messages to our body system in the form of electrical impulses to the spinal cord and brain through sensory nerves. Then there are motor nerves transmitting a response from the brain and spinal cord to effectors. Here effectors are muscles and glands.
In layman's language, the real meaning of control and coordination is the process of the body working in a systematic manner. Every small and big process happening in our body is quite complicated, and still, our body works efficiently. Our body nervous systems are connected to each other and send messages to every part of the body to conduct action.
What is a Nervous System?
The nervous system consists of nerve fibres and nerve cells transmitting messages to different parts of the body. It is a vital system found in animals and humans synchronizing its function by passing out signals to and from different parts of the body. This nervous system coordinates with the endocrine system. This system of control and coordination is brought after the involvement of various internal systems.
There are Three Types of Nerves Systems:
Sensory Nerve: It carries impulses from the sense organs to the brain
Motor Nerve: It brings messages from the brain to the sense organs
Relay Nerve: It works on both functions
Under the nervous system, there is a neuron acting as the structural and functional unit. It receives and transmits electrical nerve impulses. Neural control and coordination is an important part of human function. Neuron comprises of:
Dendrites
Axon
Cell Body
The cell body has a nucleus and granular cytoplasm called Nissl's Granules. Dendrites carry several branches and look like finger projections transmitting nerve impulse towards the cell body. Axon arises from the cell body branched as the distal end. Cells of the axon are called Schwann cells covering myelin sheath.
Messages transmitted through this nervous system are in the form of electrical impulses and are called nerve impulses. In this process, dendrites pick messages and send them to the cell boy and then to the axon. The axon then sends these messages to neurons through a junction called a synapse.
This process of biology control and coordination happens in the friction of time making the person react to the situation.
Parts of the Nervous System:
Central Nervous System (CNS)
CNS consists of the brain and spinal cord. There are multiple sensory emotions that take place in this area. Humans get thoughts and emotions from this system leading to the formation of memories. It gathers information throughout the body syncing with the activity. Apart from the sensory emotions, it controls the rate at which our heart rate beats and we breathe.
Peripheral Nervous System
Everything apart from the brain and spinal cord comprise the Peripheral Nervous System. It covers the nerves that go down the spinal cord. PNS acts as the messenger from different parts of the body to the brain. Nerves in this PNS are called peripheral nerves and connect our sense organs to each other.
Organs of Human Nervous System
There are three different nervous systems in humans:
Brain:
The brain is the major nervous system of our body controlling our actions. It receives and sends signals to and from sensory organs. The brain comprises of three parts:
Forebrain- It helps in the overall action of control and coordination of voluntary function and the thinking part of the brain.
Midbrain- It transmits signals from the hindbrain and forebrain
Hindbrain- Works on the control and coordination of heart rate, blood pressure and other activities.
Spinal Cord:
The spinal cord is the thick nerve located at the backbone of the cavity area. The upper end of the spinal cord connects to the brain and is connected to all parts of the body through nerves and controls body functions.
Nerves:
It connects the brain and the spinal cord of the body.
FAQs on Control and Coordination in Humans and Plants
1. What is control and coordination in biology?
Control and coordination is the process by which different parts of the body work together through the nervous system and endocrine system to respond to stimuli and maintain balance. In living organisms, it involves:
- Detection of changes (stimuli) by receptors
- Transmission of signals through nerves or hormones
- Response by effectors such as muscles or glands
This process ensures proper functioning, survival, and maintenance of homeostasis.
2. What are the main systems involved in control and coordination?
The two main systems involved in control and coordination are the nervous system and the endocrine system. They function as follows:
- Nervous system: Uses electrical impulses for fast and short-term responses
- Endocrine system: Uses hormones for slower but long-lasting effects
Together, they regulate body activities such as movement, growth, metabolism, and reproduction.
3. How does the nervous system control and coordinate the body?
The nervous system controls and coordinates the body by transmitting electrical impulses through neurons to produce quick responses. The process involves:
- Stimulus detected by receptors
- Signal carried by sensory neurons to the brain or spinal cord
- Processing in the central nervous system (CNS)
- Response sent via motor neurons to muscles or glands
This allows rapid actions like withdrawing a hand from a hot object.
4. What is the role of hormones in control and coordination?
Hormones act as chemical messengers that regulate body functions in control and coordination. They are:
- Secreted by endocrine glands
- Transported through the bloodstream
- Act on specific target organs
For example, insulin controls blood glucose levels, while thyroxine regulates metabolism.
5. What is a reflex action in control and coordination?
A reflex action is a quick, automatic response to a stimulus without conscious thinking. It occurs through a reflex arc, which includes:
- Receptor
- Sensory neuron
- Spinal cord
- Motor neuron
- Effector
An example is pulling your hand away immediately after touching a hot surface.
6. What is the difference between the nervous system and the endocrine system?
The nervous system uses electrical impulses for rapid responses, while the endocrine system uses hormones for slower, long-lasting effects. Key differences include:
- Speed: Nervous (fast), Endocrine (slow)
- Signal type: Electrical vs. Chemical
- Duration: Short-term vs. Long-term
Both systems work together to maintain coordination and internal balance.
7. What are the parts of the human nervous system?
The human nervous system consists of the central nervous system and the peripheral nervous system. These include:
- Central nervous system (CNS): Brain and spinal cord
- Peripheral nervous system (PNS): Cranial and spinal nerves
The CNS processes information, while the PNS connects the CNS to the rest of the body.
8. How do plants show control and coordination?
Plants show control and coordination through chemical signals called plant hormones that regulate growth and responses. Important plant hormones include:
- Auxins: Promote cell elongation
- Gibberellins: Stimulate stem growth
- Ethylene: Controls fruit ripening
Plants respond to stimuli through movements like tropisms, such as phototropism toward light.
9. What is homeostasis in control and coordination?
Homeostasis is the maintenance of a stable internal environment despite external changes. It is regulated by:
- Nervous control (e.g., body temperature regulation)
- Hormonal control (e.g., blood sugar regulation by insulin)
Maintaining homeostasis is essential for proper cellular function and survival.
10. Why is control and coordination important in living organisms?
Control and coordination are essential because they ensure proper functioning and survival of an organism. They help in:
- Responding to environmental changes
- Maintaining homeostasis
- Regulating growth, development, and reproduction
Without effective coordination between body systems, organisms cannot adapt or maintain internal balance.
