Term
Explain the advantages of Specialization of Cells: 1. Division of labour 2. Interdependence of cells 3. Size |
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Definition
1. Cells are specialized to perform only 1 function and eventually they can do it effectively and efficiently. 2. The organism won't be greatly affected if one of the cell dies. 3. The organism doesn't depend on diffusion or high SA/V ratio to spread materials because of internal transport systems. |
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Term
Name a plant's organ systems |
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Definition
- The shoot system: Everything above ground including tubers which are swollen stems that store food
- The root system: Everything underground including aerial roots which are above ground.
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Term
| _________ is the process of cell division that allows _______ and _________ |
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Definition
| Mitosis is the process of cell division that allows growth and repair. |
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Term
| What are Meristems and where are they located? |
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Definition
Meristems are areas of rapid growth on plants. They are located on root and shoot tips. Def b: they are regions of cells capable of division and growth on plants. |
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Term
| Name the 3 main types of plant tissue |
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Definition
- Epidermis or Dermal Tissue
- Ground Tissue
- Vascular Tissue
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Term
| 3 main points about Dermal Tissue |
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Definition
- Dermal tissue covers all herbaceous plants.
- It is replaced by cork and bark in woody plants.
- Dermal tissue is one cell layer thick.
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Term
| What is Dermal Tissue responsible for in the SHOOT SYSTEM ORGANS and in the ROOT SYSTEM ORGANS? |
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Definition
In the shoot system organs Dermal Tissue/Epidermis is responsible for gas exchange. In the root system organs the Dermal Tissue/Epidermis is responsible for the uptake of water and minerals from the soil. |
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Term
| 2 main points about Ground Tissue |
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Definition
- Ground Tissue make up majority of the plant.
- It is found as a layer beneath the Epidermis.
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Term
| Name the functions of ground tissue in different parts of the plant such as: the stem, the roots, and the leaves. |
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Definition
- Stem: Provide strength and support to the plant.
- Roots: Food and water storage.
- Leaves: Location of photosynthesis.
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Term
| What are cuticles and what are their functions? |
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Definition
| Cuticles are waxy substances released from the cells of leaves and stems. They resist attack from micro-organisms and reduce water loss from plants. |
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Term
| What is the vascular tissue responsible for? |
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Definition
| Vascular tissue is responsible for the transport of materials throughout the plant |
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Term
| Name the two types of vascular tissues and their functions. |
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Definition
Xylem: Moves water & minerals from the roots to the stems and leaves. Phloem: Transports sucrose and other sugars from the leaves to other parts of the cell. |
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Term
| What is the function of the stomata and where are most of them located? |
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Definition
| The stomata regulates the movement of gases. The movement of the gases depends on the concentration gradient because they move through diffusion. Most of them are located in the lower epidermis. |
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Term
| What is the name of the cells that the phloem uses for transportation? |
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Definition
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Term
| Why do sieve tube cells need companion cells? |
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Definition
Sieve tube cells are alive but they loose their nucleus, therefore companion cells direct their activities. |
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Term
| What type of vascular tissue has dead cells? |
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Definition
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Term
Formula for Photosynthesis |
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Definition
| 6CO2(g) + 6H2O(l) ------------> C6H12O2(aq) + 6O2(g) |
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Term
Formula for Cellular Respiration |
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Definition
| 6O2(g)+ C6H12O6(aq) ------------> 6CO2(g) + 6H2O(l) |
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Term
| What is Cytoplasmic Streaming and what is its function? |
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Definition
| Cytoplasmic Streaming is the movement of the cytoplasm and the organelles within it. This is a way of circulating material and speeding up distribution within the cell. |
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Term
| How are the plant tissues arranged? |
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Definition
Upper Epidermis Palisade Tissue Cells Spongy Mesophyll Cells Lower Epidermis |
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Term
Give some details on Palisade Tissue Cells |
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Definition
-Located beneath the upper epidermis -They are long, rigid, and rectangular -They are arranged so that the majority can be exposed to the sun -They are tightly packed together -They contain many chloroplasts and are responsible for photosynthesis |
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Term
When controls the opening of the stomata and when does the stomata open? |
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Definition
Guard cells control the opening of the stomata. When light strikes these cells the CO2 concentration goes down, this also stimulates the guard cells to gather potassium ions through active transport. The # of particles increases in a guard cell, therefore water also comes in through osmosis, and they swell up because of turgor pressure. The cell bulges outwards creating a cresent shape--this way the stomata opens. |
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Term
| How does the stomata close? |
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Definition
| Eventually when potassium ions leave; the water exits too. The guard cells become limp and close |
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Term
| What are the main functions of a guard cell? |
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Definition
| Guard cells allow materials in and out, but they also protect leaves from loosing too much water from the open stomata. |
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Term
| Why is water continuously lost from evaporation through the stomata? |
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Definition
| Because all gases must first dissolve in water to pass across cell membranes |
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Term
| Give some details on the Spongy Mesophyll Cells. |
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Definition
- Located between the Palisade tissue cells and the lower epidermis
- Irregularly shaped, less rigid.
- Increased space between cells that allows for gas exchange by diffusion throughout the leaf.
- They move oxygen toward the stomata for expulsion.
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Term
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Definition
| Lenticels are slits or blisters on stems of herbaceous plants and they provide a pathway for gas exchange and an opening for transpiration. |
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Term
| Name the different types of Passive Transport and give some details for each. |
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Definition
Diffusion: The natural movement of particles from an area of high concentration to an area of low concentration. Osmosis: The diffusion of water through a concentration gradient (looks opposite to diffusion) Facilitated Diffusion: Carried out with the help of proteins that help molecules diffuse through the membrane. Channel proteins: create tunnels
Carrier proteins: latch onto particles while changing their shape and physically move the particle across the membrane. One the particle is moved the protein returns to its original shape and spot.
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Term
What are the terms for when Plant and Animal cells shrink and swell? |
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Definition
Plant: - Shrink: Plasmolysis -Swell: Turgor Pressure Animal: -Shrink: Crenation -Swell: Hemolyze |
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Term
When is Active Transportation used. Name the types of Active Transport. |
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Definition
Active transport is used when a cell needs to move molecules against the concentration gradient. The types of Active Transport are: -Endocytosis: (a)Pinocytosis: cell drinking--when the cell creates a dip (b) Phagocytosis: cell eating--when the cell forms "arms" to take the molecule in -Exocytosis: Removing waste |
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Term
| "Atoms are made of subatomic particles put together in different combinations to make different elements" |
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Definition
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Term
| All matter is made of small, indivisible particles, called atoms |
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Definition
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Term
| "Electrons "fall" but cannot "fall" below the lowest energy level, therefore they do not end up in the nucleus" |
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Definition
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Term
"An atom is an empty space" |
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Definition
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Term
| All atoms of an element have identical properties such as mass and size |
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Definition
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Term
| Atoms of different elements can be combined in fixed ratios to form new substances |
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Definition
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Term
| Protons and Neutrons occupy 99.9% of the mass of an atom |
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Definition
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Term
| Electrons surround the nucleus in specific energy levels. |
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Definition
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Term
| Atoms of different elements have different properties |
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Definition
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Term
| Electrons move around atom's volume |
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Definition
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Term
| An atom is a positive charge with negative electrons embedded in it |
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Definition
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Term
| The dense center-nucleus-is positively charged. |
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Definition
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Term
| Electrons occupy the whole space at once; at different energy levels. |
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Definition
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Term
| Function of the Cell Wall |
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Definition
Provides strength and support for the cell through a rigid frame. Only found in plant cells [image](located on the very outside) |
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Term
| Eukaryote cells have a _________, whereas ___________ don't. |
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Definition
| Eukaryote cells have a nucleus, whereas prokaryote cells don't. |
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Term
| Function of the Mitochondria |
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Definition
The Mitochondria is the powerhouse of the plant where useable energy is created (Converts sugar into ATP). It performs cellular respiration. [image] |
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Term
Function of the Chloroplast. What pigment is found here? |
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Definition
The Chloroplast is the site of photosynthesis. Chlorophyll is found here [image] [image] [image] [image] |
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Term
| Function of the Vacuole. What is the difference between plant and animal vacuoles? |
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Definition
The vacuole is used for temporary storage of food, water, and waste. Plant cells usually have one HUGE vacuole [image] |
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Term
| Nucleus contains Protons and Neutrons |
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Definition
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Term
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Definition
Lysosomes are the digestive part of the cell. They break down worn out organelles. [image] |
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Term
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Definition
Aide in protein production: assemble amino acids into proteins. Found in the rough E.R. |
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Term
| Who discovered the electron? |
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Definition
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Term
| Function of the Smooth E.R. |
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Definition
Production of fats and lipids. [image] |
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Term
| Function of the Rough E.R. |
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Definition
Protein Production. Contains Ribosomes. [image] |
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Term
| Function of the Cytoplasm |
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Definition
The cytoplasm is everything but the nucleus. It moves the organelles for faster distribution of materials a.k.a. Cytoplasmic Streaming |
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Term
| Function of the cell membrane |
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Definition
Semi-permeable membrane that allows the transport of materials [image] |
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Term
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Definition
The nucleus directs all cell activities, and it contains the DNA [image] |
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Term
| Function of the Golgi Apparatus |
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Definition
The Golgi Apparatus recieves vesicles from the endoplasmic reticulums, modifies them, packages them, then sends them off. [image] |
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Term
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Definition
Aristotle made careful observations and recordings, he also classified over 500 animal species. |
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Term
| What did Hans and Zacharias Janssen do? |
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Definition
| They invented the microscope that had a power of 20x. It was also a compound microscope. |
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Term
| What did Robert Hooke do? |
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Definition
| Robert Hooke found out that cork was made of air pockets surrounded by mesh fibre. |
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Term
| What did Anthony van Leeuwenhoek do? |
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Definition
| He was the first to see the movement of single cells. |
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Term
| Why were early compound microscopes less efficient? |
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Definition
Early compound microscopes were less efficient because they produced blurry images with halos of light surrounding the object. This was because light was being scattered as it passed through the lenses. |
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Term
| What kind of lens was invented for a clearer image? |
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Definition
| An achromatic lens was invented for a clearer image without any halos of light or blurry images. |
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Term
| What did Louis Pasteur do? |
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Definition
| He proved that Spontaneous Generation didn't occur by using an S bend flask. He boiled the broth and then put it in this flask, this way air could go in and out but the micro-organisms would get caught in the S bend. |
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Term
| Describe the 3 points of Cell Theory |
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Definition
- All living things are made of one or more cells and the materials produced by these cells.
- All life functions can be carried out in a cell, making it the smallest unit of life.
- Cells reproduce through pre-existing cells through cell division
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Term
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Definition
| An open system is a system that interacts with its environment and exchanges matter and energy with its surroundings. |
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Term
| Name the elements that make up cells |
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Definition
H-CON Hydrogen Carbon Oxygen Nitrogen |
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Term
| Name the 4 organic compounds found in cells |
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Definition
Lipids Carbohydrates Nucleic Acids Proteins |
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Term
| Describe the 4 points of the Particle Model |
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Definition
- All matter is made up of Particles, particles in different substances are different in size and composition.
- Particles are constantly moving
- Particles are attracted to each other
- Particles have space between them that may be occupied by different particles.
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Term
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Definition
| The attraction of molecules to the same type of molecules |
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Term
| Why are water molecules attracted to each other? |
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Definition
Water is polar therefore water molecules are attracted to each other. The slightly positive end of one molecule is attracted to the slightly negative end of the other molecule. |
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Term
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Definition
Adhesion is the attraction of one type of molecules to other different molecules. |
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Term
| Why does water look unleveled in a glass tube? |
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Definition
Water looks unleveled in a glass tube because water molecules are attracted to the glass on the sides, therefore they cling to this glass and try to inch up. |
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Term
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Definition
| Root Pressure is when dissolved minerals are present in the root as a result of active transport, water also comes in through osmosis. This builds up pressure that forces the water up. |
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Term
| What is Transpiration Pull? |
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Definition
| Transpiration pull is when water is lost through the stomata and lenticels and it creates a pull on other water molecules to come and replace the lost ones. |
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Term
| What is the Pressure Flow Theory? |
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Definition
| Through active transport sugars fill the phloem cells, water also enters through osmosis, creating pressure that is used to transport sugar to the rest of the plant. |
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Term
| What is a source and a sink? |
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Definition
A source is where something is created; a sink is where something is stored. Sink eg: Ground tissue of roots |
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Term
| What is Photropism? And do plants and roots have positive or negative phototropism? |
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Definition
| Phototropism is when something grows towards the light. Plants exhibit positive phototropism, whereas roots exhibit negative phototropism. |
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Term
| What is gravitropism? And do plants and roots have positive or negative gravitropism? |
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Definition
| Gravitropism is the action of growing towards the force of gravity. Plants have negative gravitropism, whereas roots have positive gravitropism. |
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Term
| What area of a plant responds to light? |
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Definition
| The tip of the stem is responsible for the detection of light |
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Term
| What is the area of elongation and where does it face? |
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Definition
| The area of elongation is where the cells elongate on the side of the leaf; facing away from the light. They are located lower on the leaf and face away from the light source. These cells elongate and cause the stems to bend towards the light. |
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