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How does Messi keep the ball close to himself

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The science of how Messi keeps the ball close to himself photo credit: ZaleDesigns Messi is a magician with the ball at his feet. He's in my opinion the best player in the sense that he can control the ball so well, runs so fast with the ball & changes the direction at full speed like it's a walk in the park. For starters he started playing very early (at 3) which is crucial if you want to be a good player. In that aspect, he's God gifted as he had dribble skills which is genetic in my opinion. Height He is short which means a low center of gravity so it's difficult to push him off the ball. That's why we see that anyone rarely can topple him down, instead players much larger than him lose possession to him. So his short height suits his style of play & is a blessing in disguise. Change of pace Messi changes his pace really well. He starts slow and runs directly at the defender which means the defender has to stop & focus on him. When he reac...
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What are Tissues

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Biology - Tissues

Introduction

  • A group of cells that are similar in structure and work together to accomplish a particular function is known as tissue.


Tissues are categorized as −

    • Plant Tissue &

    • Animal Tissue

  • Let’s discuss them in brief −

Plant Tissue

  • Following are the major types of plant tissue −

    • Meristematic Tissues

    • Permanent Tissues

      • Simple Permanent Tissues

        • Parenchyma

        • Collenchyma

        • Sclerenchyma

        • Epidermis

      • Complex Permanent Tissue

        • Xylem

        • Phloem

Meristematic Tissue

  • Meristematic tissue mainly consists of actively dividing cells, and helps in increasing the length and thickening the stems of the plant.

  • Meristematic tissue, commonly, present in the primary growth regions of a plant, for example, in the tips of stems or roots.

  • Depending on the region (where the meristematic tissues are found); meristematic tissues are classified as apical, lateral, and intercalary (see the image given below).

Types of Meristematic Tissue

  • Apical meristem (as shown in the above image) is present at the growing tips of stems and roots and helps in their growth.

  • Lateral Meristem is found in stem or root region and helps in their growth.

  • Intercalary meristem is found at the base of the leaves or internodes (on twigs) and helps in growth.

Permanent Tissue

  • Cells of meristematic tissue later differentiate to form different types of permanent tissue.

  • Permanent Tissue is further categorized as −

    • Simple Permanent Tissue and

    • Complex Permanent Tissue

Simple Permanent Tissue

  • Simple Permanent Tissue further categorized as −

    • Parenchyma

    • Collenchyma

    • Sclerenchyma

    • Epidermis

  • Parenchyma tissue provides support to plants and also stores food.

Parenchyma Tissue

  • Sometimes, parenchyma tissue contains chlorophyll and performs photosynthesis, in such a condition, it is known as collenchyma.

Collenchyma Tissue

  • The collenchyma tissue provides flexibility to plant and also provides mechanical support (to plant).

  • The large air cavities, which are present in parenchyma of aquatic plants, give buoyancy to the plants and also help them float, are known as aerenchyma.

  • The Sclerenchyma tissue makes the plant hard and stiff. For example, the husk of a coconut is made up of sclerenchymatous tissue.

Sclerenchyma Tissue

  • The cells of Sclerenchyma tissue normally are dead.

  • The outermost layer of cells is known as epidermis.

  • The epidermis is usually made up of a single layer of cells.

Epidermis

  • The entire surface of a plant has the outer covering of epidermis, which protects all the parts of the plant.

Complex Permanent Tissue

  • The complex tissue, normally, consists of more than one type of cells which work together as a unit.

  • Complex tissues help in the transportation by carrying organic material, water, and minerals up and down in the plants.

  • Complex Permanent Tissue is categorized as;

    • Xylem and

    • Phloem

Xylema and Phloem

  • Xylem, normally, consists of tracheid, vessels, xylem parenchyma, and xylem fibers.

  • Xylem is accountable for the conduction of water and mineral ions/salt.

  • Phloem, normally, is made up of four types of elements namely −

    • Sieve tubes

    • Companion cells

    • Phloem fibers and

    • Phloem parenchyma

Phloem

  • Phloem tissue transports food from leaves to other parts of the plant.

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