Difference between revisions of "Structure of cell"

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While creating a resource page, please click here for a resource creation [http://karnatakaeducation.org.in/KOER/en/index.php/Resource_Creation_Checklist '''checklist''']
 
While creating a resource page, please click here for a resource creation [http://karnatakaeducation.org.in/KOER/en/index.php/Resource_Creation_Checklist '''checklist''']
 
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= Textbook =
 
= Textbook =
 
= Additional information =
 
= Additional information =
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===Notes for teachers===
 
===Notes for teachers===
#This unit begins with how the cell was discovered by Robert Hook. This lead to the discovery of different types of microscopes.
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#This unit begins with how the cell was discovered by [https://encrypted-tbn0.gstatic.com/images?q=tbn:ANd9GcSap6z_Z1QuLAPXpGOGItGqBmXEIPakUXqU7r0DrUJydTuHhxxVdA Robert Hook.] This lead to the discovery of different types of [http://visual.merriam-webster.com/images/science/physics-optics/magnifying-glass-microscopes/microscope.jpg microscopes]
#Every organism is made up of one or more than one cells.The cell  is the basic structural, functional and biological unit of all known living organisms. Cells are the smallest unit of life that can replicate independently, and are often called the "building blocks of life". The study of cells is called cell biology. Cells consist of a protoplasm enclosed within a membrane, which contains many biomolecules such as proteins and nucleic acids. Organisms can be classified as unicellular (consisting of a single cell; including most bacteria) or multicellular (including plants and animals). While the number of cells in plants and animals varies from species to species, humans contain about 100 trillion  cells. Most plant and animal cells are visible only under the microscope, with dimensions between 1 and 100 micrometres.
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#Every organism is made up of one or more than one cells.The cell  is the basic structural, functional and biological unit of all known living organisms. Cells are the smallest unit of life that can replicate independently, and are often called the "building blocks of life". The study of cells is called cell biology. Cells consist of a protoplasm enclosed within a membrane, which contains many biomolecules such as proteins and nucleic acids. Organisms can be classified as [http://images.wisegeek.com/amoeba-diagram.jpg unicellular] (consisting of a single cell; including most bacteria) or [http://4.bp.blogspot.com/-RgT6bWtW1MY/T8em8BNV4xI/AAAAAAAAAWE/7DSwOORg1bQ/s400/article-new_ehow_images_a08_5r_lo_kingdoms-contain-multicellular-organisms-800x800.jpg multicellular] (including plants and animals). While the number of cells in plants and animals varies from species to species, humans contain about 100 trillion  cells. Most plant and animal cells are visible only under the microscope, with dimensions between 1 and 100 micrometres.
#The cell was discovered by Robert Hooke in 1665. The cell theory, first developed in 1839 by Matthias Jakob Schleiden and Theodor Schwann, states that all organisms are composed of one or more cells, that all cells come from preexisting cells, that vital functions of an organism occur within cells, and that all cells contain the hereditary information necessary for regulating cell functions and for transmitting information to the next generation of cells.[5] Cells emerged on Earth at least 3.5 billion years ago.<br>
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#The cell was discovered by Robert Hooke in 1665. The cell theory, first developed in 1839 by [http://www.sciencephoto.com/image/228312/350wm/H4190102-The_German_botanist_Jakob_Mathias_Schleiden-SPL.jpg Matthias Jakob Schleiden] and [http://tarangini.files.wordpress.com/2012/05/rudolf_virchow.jpg Theodor Schwann], states that all organisms are composed of one or more cells, that all cells come from preexisting cells, that vital functions of an organism occur within cells, and that all cells contain the hereditary information necessary for regulating cell functions and for transmitting information to the next generation of cells.[5] Cells emerged on Earth at least 3.5 billion years ago.
[http://brightscientificbd.com/images/stories/virtuemart/product/microscope.jpg]
 
 
#There are different kinds of cells in plants and animals.
 
#There are different kinds of cells in plants and animals.
 
#Cells control every activity that take place in an organism.
 
#Cells control every activity that take place in an organism.
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===Activities===
 
===Activities===
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#Diffusion is the net movement of a substance (e.g., an atom, ion or molecule) from a region of high concentration to a region of low concentration. This is also referred to as the movement of a substance down a concentration gradient. A gradient is the change in the value of a quantity (e.g., concentration, pressure, temperature) with the change in another variable (e.g., distance). For example, a change in concentration over a distance is called a concentration gradient, a change in pressure over a distance is called a pressure gradient, and a change in temperature over a distance is a called a temperature gradient.
 
#Diffusion is the net movement of a substance (e.g., an atom, ion or molecule) from a region of high concentration to a region of low concentration. This is also referred to as the movement of a substance down a concentration gradient. A gradient is the change in the value of a quantity (e.g., concentration, pressure, temperature) with the change in another variable (e.g., distance). For example, a change in concentration over a distance is called a concentration gradient, a change in pressure over a distance is called a pressure gradient, and a change in temperature over a distance is a called a temperature gradient.
 
#An example of a situation in which bulk flow and diffusion can be differentiated is the mechanism by which oxygen enters the body during external respiration (breathing). The lungs are located in the thoracic cavity, which is expanded as the first step in external respiration. This expansion leads to an increase in volume of the alveoli in the lungs, which causes a decrease in pressure in the alveoli. This creates a pressure gradient between the air outside the body (relatively high pressure) and the alveoli (relatively low pressure). The air moves down the pressure gradient through the airways of the lungs and into the alveoli until the pressure of the air and that in the alveoli are equal (i.e., the movement of air by bulk flow stops once there is no longer a pressure gradient).
 
#An example of a situation in which bulk flow and diffusion can be differentiated is the mechanism by which oxygen enters the body during external respiration (breathing). The lungs are located in the thoracic cavity, which is expanded as the first step in external respiration. This expansion leads to an increase in volume of the alveoli in the lungs, which causes a decrease in pressure in the alveoli. This creates a pressure gradient between the air outside the body (relatively high pressure) and the alveoli (relatively low pressure). The air moves down the pressure gradient through the airways of the lungs and into the alveoli until the pressure of the air and that in the alveoli are equal (i.e., the movement of air by bulk flow stops once there is no longer a pressure gradient).
The air arriving in the alveoli has a higher concentration of oxygen than the “stale” air in the alveoli. The increase in oxygen concentration creates a concentration gradient for oxygen between the air in the alveoli and the blood in the capillaries that surround the alveoli. Oxygen then moves by diffusion, down the concentration gradient, into the blood. The other consequence of the air arriving in alveoli is that the concentration of carbon dioxide in the alveoli decreases (air has a very low concentration of carbon dioxide compared to the blood in the body). This creates a concentration gradient for carbon dioxide to diffuse from the blood into the alveoli.
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#The air arriving in the alveoli has a higher concentration of oxygen than the “stale” air in the alveoli. The increase in oxygen concentration creates a concentration gradient for oxygen between the air in the alveoli and the blood in the capillaries that surround the alveoli. Oxygen then moves by diffusion, down the concentration gradient, into the blood. The other consequence of the air arriving in alveoli is that the concentration of carbon dioxide in the alveoli decreases (air has a very low concentration of carbon dioxide compared to the blood in the body). This creates a concentration gradient for carbon dioxide to diffuse from the blood into the alveoli.
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===Activities===
 
===Activities===
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===Learning objectives===
 
===Learning objectives===
 
===Notes for teachers===
 
===Notes for teachers===
 
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''These are short notes that the teacher wants to share about the concept, any locally relevant information, specific instructions on what kind of methodology used and common misconceptions/mistakes.''
 
  
 
===Activities===
 
===Activities===
#Activity No #1 '''page_name_concept_name_activity1'''
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#Activity No #1[[Structure_of Cell_Osmosis_activity1]]
#Activity No #2 '''page_name_concept_name_activity2'''
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==Concept #4==
 
==Concept #4==

Latest revision as of 21:31, 17 May 2017

The Story of Science

Philosophy of Science

Teaching of Science

Curriculum and Syllabus

Topics in School Science

Textbooks

Question Bank

While creating a resource page, please click here for a resource creation checklist

[maximize]

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Textbook

Additional information

Useful websites

Reference Books

Teaching Outlines

Concept #1 - cell

Learning objectives

  1. All living organisms are made up of cells.
  2. Cells are the structural and functional unit of an organism.
  3. Cell consists of three distinct parts when observed through compound microscope-cell membrane, cytoplasm and nucleus.

Notes for teachers

  1. This unit begins with how the cell was discovered by Robert Hook. This lead to the discovery of different types of microscopes
  2. Every organism is made up of one or more than one cells.The cell is the basic structural, functional and biological unit of all known living organisms. Cells are the smallest unit of life that can replicate independently, and are often called the "building blocks of life". The study of cells is called cell biology. Cells consist of a protoplasm enclosed within a membrane, which contains many biomolecules such as proteins and nucleic acids. Organisms can be classified as unicellular (consisting of a single cell; including most bacteria) or multicellular (including plants and animals). While the number of cells in plants and animals varies from species to species, humans contain about 100 trillion cells. Most plant and animal cells are visible only under the microscope, with dimensions between 1 and 100 micrometres.
  3. The cell was discovered by Robert Hooke in 1665. The cell theory, first developed in 1839 by Matthias Jakob Schleiden and Theodor Schwann, states that all organisms are composed of one or more cells, that all cells come from preexisting cells, that vital functions of an organism occur within cells, and that all cells contain the hereditary information necessary for regulating cell functions and for transmitting information to the next generation of cells.[5] Cells emerged on Earth at least 3.5 billion years ago.
  4. There are different kinds of cells in plants and animals.
  5. Cells control every activity that take place in an organism.

plant3.gif animal4.gif

Activities

  1. Activity No #1Observation of cell
  2. Activity No #2 Concept Name - Activity No.

Concept #2 - Diffusion

Learning objectives

  1. Transport of materials in plant and animal cells takes place through different processes.
  2. In diffusion movement of molecules take place from a region of higher concentration to a region of lower concentration.
  3. 3.Diffusion is seen in both lower and higher organisms.

Notes for teachers

  1. Movement of materials or molecules in all living organisms take place through diffusion.
  2. In diffusion movement of molecules take place from a region of higher concentration to a region of lower concentration.
  3. Diffusion is the net movement of a substance (e.g., an atom, ion or molecule) from a region of high concentration to a region of low concentration. This is also referred to as the movement of a substance down a concentration gradient. A gradient is the change in the value of a quantity (e.g., concentration, pressure, temperature) with the change in another variable (e.g., distance). For example, a change in concentration over a distance is called a concentration gradient, a change in pressure over a distance is called a pressure gradient, and a change in temperature over a distance is a called a temperature gradient.
  4. An example of a situation in which bulk flow and diffusion can be differentiated is the mechanism by which oxygen enters the body during external respiration (breathing). The lungs are located in the thoracic cavity, which is expanded as the first step in external respiration. This expansion leads to an increase in volume of the alveoli in the lungs, which causes a decrease in pressure in the alveoli. This creates a pressure gradient between the air outside the body (relatively high pressure) and the alveoli (relatively low pressure). The air moves down the pressure gradient through the airways of the lungs and into the alveoli until the pressure of the air and that in the alveoli are equal (i.e., the movement of air by bulk flow stops once there is no longer a pressure gradient).
  5. The air arriving in the alveoli has a higher concentration of oxygen than the “stale” air in the alveoli. The increase in oxygen concentration creates a concentration gradient for oxygen between the air in the alveoli and the blood in the capillaries that surround the alveoli. Oxygen then moves by diffusion, down the concentration gradient, into the blood. The other consequence of the air arriving in alveoli is that the concentration of carbon dioxide in the alveoli decreases (air has a very low concentration of carbon dioxide compared to the blood in the body). This creates a concentration gradient for carbon dioxide to diffuse from the blood into the alveoli.

Activities

  1. Activity No #1Structure_of_cell_diffusion_Activity1
  2. Activity No #1Structure_of_cell_diffusion_Activity2


Concept #3 - Osmosis

Learning objectives

Notes for teachers

Activities

  1. Activity No #1Structure_of Cell_Osmosis_activity1
  2. Activity No #2Structure_of Cell_Osmosis_activity2

Concept #4

Learning objectives

Notes for teachers

Activities

  1. Activity No #1 page_name_concept_name_activity1
  2. Activity No #2 page_name_concept_name_activity2

Concept #5

Learning objectives

Notes for teachers

Activities

  1. Activity No #1 page_name_concept_name_activity1
  2. Activity No #2 page_name_concept_name_activity2


Assessment Activities for CCE

Project Ideas

Fun corner