Coordination in Science

Definition of Coordination

Key Facts

  1. Definition of Coordination: Coordination in science involves the integration and synchronization of various organs, systems, or components to produce an appropriate response or reaction to a stimulus[2].
  2. Biological Coordination: In biology, coordination refers to the harmonious working of interrelated but different parts of an organism’s body to perform activities smoothly. This coordination is achieved through the nervous system and endocrine system, which regulate and control bodily functions.
  3. Chemical Coordination: In chemistry, coordination refers to the arrangement of atoms, ions, or molecules around a central atom or ion in a complex or coordination compound. The coordination number represents the number of nearest neighbors held by the central atom or ion.
  4. Examples of Coordination in Science:
    • In biology, coordination is evident in the nervous system’s ability to transmit signals from sensory organs to the brain, which then coordinates a response.
    • In chemistry, coordination compounds exhibit coordination through the arrangement of ligands around a central metal ion.

Coordination in science refers to the integration and synchronization of various organs, systems, or components to produce an appropriate response or reaction to a stimulus [2].

Biological Coordination

In biology, coordination refers to the harmonious working of interrelated but different parts of an organism’s body to perform activities smoothly. This coordination is achieved through the nervous system and endocrine system, which regulate and control bodily functions.

Chemical Coordination

In chemistry, coordination refers to the arrangement of atoms, ions, or molecules around a central atom or ion in a complex or coordination compound. The coordination number represents the number of nearest neighbors held by the central atom or ion.

Examples of Coordination in Science

  • In biology, coordination is evident in the nervous system’s ability to transmit signals from sensory organs to the brain, which then coordinates a response.
  • In chemistry, coordination compounds exhibit coordination through the arrangement of ligands around a central metal ion.

Conclusion

Coordination is a fundamental concept in various scientific disciplines, encompassing the integration of different components to achieve a unified and effective response. Understanding coordination is crucial for comprehending the functioning of biological systems, chemical reactions, and complex structures.

References

[1] https://byjus.com/question-answer/define-coordination-2/

[2] https://byjus.com/question-answer/define-coordination/

[3] https://www.britannica.com/science/coordination-number

FAQs

What is coordination in science?

Coordination in science refers to the integration and synchronization of various organs, systems, or components to produce an appropriate response or reaction to a stimulus.

What is biological coordination?

Biological coordination involves the harmonious working of different parts of an organism’s body to perform activities smoothly. It is achieved through the nervous system and endocrine system.

What is chemical coordination?

Chemical coordination refers to the arrangement of atoms, ions, or molecules around a central atom or ion in a complex or coordination compound. The coordination number represents the number of nearest neighbors held by the central atom or ion.

Can you provide examples of coordination in science?

In biology, coordination is evident in the nervous system’s ability to transmit signals from sensory organs to the brain, which then coordinates a response. In chemistry, coordination compounds exhibit coordination through the arrangement of ligands around a central metal ion.

What is the significance of coordination in science?

Coordination is crucial for understanding the functioning of biological systems, chemical reactions, and complex structures. It allows for the integration of different components to achieve a unified and effective response.

How is coordination achieved in biological systems?

In biological systems, coordination is achieved through the nervous system and endocrine system. The nervous system transmits signals from sensory organs to the brain, which then coordinates a response. The endocrine system releases hormones that regulate various bodily functions.

How is coordination achieved in chemical systems?

In chemical systems, coordination is achieved through the formation of coordination compounds. These compounds involve the arrangement of ligands around a central metal ion. The coordination number represents the number of nearest neighbors held by the central atom or ion.

What are some applications of coordination chemistry?

Coordination chemistry has applications in various fields, including catalysis, medicine, and materials science. Coordination compounds are used as catalysts in industrial processes, as drugs in medicine, and as components in electronic devices and other materials.