The tissue that responsible for branching is

Arteries are blood vessels. Most carry oxygen-rich blood from the heart to various organs and tissues. Arteries are a part of the circulatory system, along with the heart and other blood vessels. The circulatory, or The blood in arteries is typically oxygenated. The exception is that the While arteries carry blood away from the heart, veins carry blood toward the heart. The arteries operate under higher pressure than other blood vessels, so they are typically thicker and more elastic. In this article, we explore the anatomy, function, and types of arteries, as well as health conditions that affect them. Generally, an artery has • Tunica intima: This innermost layer consists of elastic membranes and tissues that help the blood move in the right direction. • Tunica media: This is the middle layer and the thickest. It comprises elastin and smooth muscle. • Tunica adventitia: This outermost layer consists of collagen fibers and elastin, which provide added strength. This layer also enables arteries to expand and contract, an important feature for controlling The body contains • Elastic: These arteries contain more elastic than muscular tissue. The increased flexibility helps them accommodate surges of blood. Elastic arteries, including the pulmonary artery and aorta, come out of the heart. • Muscular: These arteries contain less elastin and more smooth muscle fiber. The elastic arteries feed into muscular arteries, and the smooth muscle fibers allow them to expand and contract...

Synonyms: Striated skeletal muscle, Textus muscularis striatus skeletalis Muscle is defined as a tissue primarily composed of specialized Depending on the type, the primary function of muscle is to move the bones of the skeleton. However, muscles also enable the heart to beat and can be found in the walls of hollow organs, such as the intestines, uterus and stomach. In this article, we will explore the many functions of muscle in the Key facts about muscle tissue Types Striated muscle (skeletal, visceral striated, cardiac) Non striated (smooth) muscle Skeletal muscle Striated muscle; formed of long, multinucleate, unbranched myocytes Attached at one or either ends to a bony attachment point Cardiac muscle Striated muscle; formed of short, uninucleate, branching myocytes which connected at intercalated discs Specialized muscle of the heart → myocardium Smooth muscle Non striated muscle; formed of short, uninucleate, spindle shaped myocytes Located in the walls of internal organs, blood vessels etc. Connective tissues Endomysium: loose connective tissue surrounding muscle cells/fibers Perimysium: Fibrous sheath which divides muscle tissue into fascicles Epimysium: Fibrous sheath which surrounds entire skeletal muscles Overview Muscle tissue has four main properties: • Excitability: an ability to respond to stimuli • Contractibility: an ability to contract • Extensibility: an ability to be stretched without tearing • Elasticity: an ability to return to its normal shape...

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Roots grow in length only from their ends. The very tip of the root is covered by a thimble-shaped region of elongation, which lies just above the meristematic region. It is in the region of elongation that growth in length occurs. Above this elongation zone lies the region of maturation, where the primary tissues of the root mature, completing the process of cell differentiation that actually begins in the upper portion of the meristematic region.

• Make a comparison and write down ways in which plant cells are different from animal cells. • How is a prokaryotic cell different from a eukaryotic cell? • What would happen if the plasma membrane ruptures or breaks down? • What would happen to the life of a cell if there was no Golgi apparatus? • Which organelle is known as the powerhouse of the cell? Why? • Where do the lipids and proteins constituting the cell membrane get synthesised?

Roots grow in length only from their ends. The very tip of the root is covered by a thimble-shaped region of elongation, which lies just above the meristematic region. It is in the region of elongation that growth in length occurs. Above this elongation zone lies the region of maturation, where the primary tissues of the root mature, completing the process of cell differentiation that actually begins in the upper portion of the meristematic region.

Arteries are blood vessels. Most carry oxygen-rich blood from the heart to various organs and tissues. Arteries are a part of the circulatory system, along with the heart and other blood vessels. The circulatory, or The blood in arteries is typically oxygenated. The exception is that the While arteries carry blood away from the heart, veins carry blood toward the heart. The arteries operate under higher pressure than other blood vessels, so they are typically thicker and more elastic. In this article, we explore the anatomy, function, and types of arteries, as well as health conditions that affect them. Generally, an artery has • Tunica intima: This innermost layer consists of elastic membranes and tissues that help the blood move in the right direction. • Tunica media: This is the middle layer and the thickest. It comprises elastin and smooth muscle. • Tunica adventitia: This outermost layer consists of collagen fibers and elastin, which provide added strength. This layer also enables arteries to expand and contract, an important feature for controlling The body contains • Elastic: These arteries contain more elastic than muscular tissue. The increased flexibility helps them accommodate surges of blood. Elastic arteries, including the pulmonary artery and aorta, come out of the heart. • Muscular: These arteries contain less elastin and more smooth muscle fiber. The elastic arteries feed into muscular arteries, and the smooth muscle fibers allow them to expand and contract...

Synonyms: Striated skeletal muscle, Textus muscularis striatus skeletalis Muscle is defined as a tissue primarily composed of specialized Depending on the type, the primary function of muscle is to move the bones of the skeleton. However, muscles also enable the heart to beat and can be found in the walls of hollow organs, such as the intestines, uterus and stomach. In this article, we will explore the many functions of muscle in the Key facts about muscle tissue Types Striated muscle (skeletal, visceral striated, cardiac) Non striated (smooth) muscle Skeletal muscle Striated muscle; formed of long, multinucleate, unbranched myocytes Attached at one or either ends to a bony attachment point Cardiac muscle Striated muscle; formed of short, uninucleate, branching myocytes which connected at intercalated discs Specialized muscle of the heart → myocardium Smooth muscle Non striated muscle; formed of short, uninucleate, spindle shaped myocytes Located in the walls of internal organs, blood vessels etc. Connective tissues Endomysium: loose connective tissue surrounding muscle cells/fibers Perimysium: Fibrous sheath which divides muscle tissue into fascicles Epimysium: Fibrous sheath which surrounds entire skeletal muscles Overview Muscle tissue has four main properties: • Excitability: an ability to respond to stimuli • Contractibility: an ability to contract • Extensibility: an ability to be stretched without tearing • Elasticity: an ability to return to its normal shape...

• Nutrient Content: Manure supplies low quantity of nutrients to the soil. • Slow Release of Mineral Nutrients: The release of nutrients from manure is slov in the case of fertilisers. • Nutrient Specificity: Manure cannot be used to treat soil for a specific minera manure is not nutrient specific. • Bulk: Manure needs to be applied to the soil in large quantities, which becomes incun • Transport: Being needed in bulk, manure transport is not easy over long distan • Storage: Manure cannot be stored beyond 1 or 2 months because over a long period its quality deteriorates because of decomposition of organic matter. Views: 5,372 1 kg is placed on the surface of the Earth, gravitational force of attraction between the object and the Earth is (iii) N. If two objects are of different masses and the distance between them is decreased by 10%, then the percentage change in the gravitational force between the two objects is about (iv). A. B. C. D. ​ (i) Inversely Inversely Inversely Directly ​ (ii) Square Square Square root Square ​ (iii) 9.8 9.8 98 98 ​ (iv) 28.5 23.5 25 35.5 ​