A plant's stem provides support for leaves, flowers, and fruits, ensuring they reach sunlight. It contains tubes (xylem and phloem) that transport water, nutrients, and sugars throughout the plant, aiding growth and food distribution. Some stems store water and nutrients. In some plants, stems alsoRead more
A plant’s stem provides support for leaves, flowers, and fruits, ensuring they reach sunlight. It contains tubes (xylem and phloem) that transport water, nutrients, and sugars throughout the plant, aiding growth and food distribution. Some stems store water and nutrients. In some plants, stems also help create new plants. Stems are vital for a plant’s structure, growth, and reproduction.
Plants with reticulate venation have a branching network of veins on their leaves. Among the options provided: - Wheat: Has parallel venation, not reticulate. - Tulsi (Holy Basil): Typically exhibits reticulate venation. - Maize (Corn): Shows parallel venation, not reticulate. - Grass: Generally hasRead more
Plants with reticulate venation have a branching network of veins on their leaves. Among the options provided:
– Wheat: Has parallel venation, not reticulate.
– Tulsi (Holy Basil): Typically exhibits reticulate venation.
– Maize (Corn): Shows parallel venation, not reticulate.
– Grass: Generally has parallel venation, not reticulate.
– Coriander (Dhania): Displays reticulate venation.
– China Rose: Often exhibits reticulate venation.
The leaves of Tulsi, Coriander (Dhania), and China Rose typically have reticulate venation, characterized by a network of branching veins on the leaf surface.
Plants with fibrous roots, like grasses, usually have leaves displaying parallel venation. In parallel venation, leaf veins run alongside each other, from the base to the tip of the leaf, resembling parallel lines. This type of leaf venation is common in plants with fibrous roots, aiding in water abRead more
Plants with fibrous roots, like grasses, usually have leaves displaying parallel venation. In parallel venation, leaf veins run alongside each other, from the base to the tip of the leaf, resembling parallel lines. This type of leaf venation is common in plants with fibrous roots, aiding in water absorption and providing stability in the soil.
Plants with leaves showing reticulate venation commonly have taproots. Reticulate venation displays a branching network of veins on the leaf. Taproots are primary roots growing vertically down with smaller lateral roots. This root system contrasts with fibrous roots seen in plants with parallel venaRead more
Plants with leaves showing reticulate venation commonly have taproots. Reticulate venation displays a branching network of veins on the leaf. Taproots are primary roots growing vertically down with smaller lateral roots. This root system contrasts with fibrous roots seen in plants with parallel venation in their leaves, making it easier to identify the type of root system a plant possesses.
The typical parts of a flower are: 1. Petal: Often colorful parts of the flower that attract pollinators. 2. Sepal: Outermost part protecting the flower bud. 3. Stamen: Male reproductive organ comprising the anther (produces pollen) and filament. 4. Pistil (or Carpel): Female reproductive organ consRead more
The typical parts of a flower are:
1. Petal: Often colorful parts of the flower that attract pollinators.
2. Sepal: Outermost part protecting the flower bud.
3. Stamen: Male reproductive organ comprising the anther (produces pollen) and filament.
4. Pistil (or Carpel): Female reproductive organ consisting of the stigma (receives pollen), style, and ovary (contains ovules).
5. Ovary: Part of the pistil that holds ovules, eventually becoming the fruit after fertilization.
These parts work together in reproduction, attracting pollinators, and facilitating the formation of seeds and fruits in plants.
What is the function of a stem in a plant?
A plant's stem provides support for leaves, flowers, and fruits, ensuring they reach sunlight. It contains tubes (xylem and phloem) that transport water, nutrients, and sugars throughout the plant, aiding growth and food distribution. Some stems store water and nutrients. In some plants, stems alsoRead more
A plant’s stem provides support for leaves, flowers, and fruits, ensuring they reach sunlight. It contains tubes (xylem and phloem) that transport water, nutrients, and sugars throughout the plant, aiding growth and food distribution. Some stems store water and nutrients. In some plants, stems also help create new plants. Stems are vital for a plant’s structure, growth, and reproduction.
See lessWhich of the following leaves have reticulate venation? Wheat, tulsi, maize, grass, coriander (dhania), China rose
Plants with reticulate venation have a branching network of veins on their leaves. Among the options provided: - Wheat: Has parallel venation, not reticulate. - Tulsi (Holy Basil): Typically exhibits reticulate venation. - Maize (Corn): Shows parallel venation, not reticulate. - Grass: Generally hasRead more
Plants with reticulate venation have a branching network of veins on their leaves. Among the options provided:
– Wheat: Has parallel venation, not reticulate.
– Tulsi (Holy Basil): Typically exhibits reticulate venation.
– Maize (Corn): Shows parallel venation, not reticulate.
– Grass: Generally has parallel venation, not reticulate.
– Coriander (Dhania): Displays reticulate venation.
– China Rose: Often exhibits reticulate venation.
The leaves of Tulsi, Coriander (Dhania), and China Rose typically have reticulate venation, characterized by a network of branching veins on the leaf surface.
See lessIf a plant has fibrous root, what type of venation do its leaves likely to have?
Plants with fibrous roots, like grasses, usually have leaves displaying parallel venation. In parallel venation, leaf veins run alongside each other, from the base to the tip of the leaf, resembling parallel lines. This type of leaf venation is common in plants with fibrous roots, aiding in water abRead more
Plants with fibrous roots, like grasses, usually have leaves displaying parallel venation. In parallel venation, leaf veins run alongside each other, from the base to the tip of the leaf, resembling parallel lines. This type of leaf venation is common in plants with fibrous roots, aiding in water absorption and providing stability in the soil.
See lessIf a plant has leaves with reticulate venation, what kind of roots will it have?
Plants with leaves showing reticulate venation commonly have taproots. Reticulate venation displays a branching network of veins on the leaf. Taproots are primary roots growing vertically down with smaller lateral roots. This root system contrasts with fibrous roots seen in plants with parallel venaRead more
Plants with leaves showing reticulate venation commonly have taproots. Reticulate venation displays a branching network of veins on the leaf. Taproots are primary roots growing vertically down with smaller lateral roots. This root system contrasts with fibrous roots seen in plants with parallel venation in their leaves, making it easier to identify the type of root system a plant possesses.
See lessWrite the names of the parts of a flower.
The typical parts of a flower are: 1. Petal: Often colorful parts of the flower that attract pollinators. 2. Sepal: Outermost part protecting the flower bud. 3. Stamen: Male reproductive organ comprising the anther (produces pollen) and filament. 4. Pistil (or Carpel): Female reproductive organ consRead more
The typical parts of a flower are:
1. Petal: Often colorful parts of the flower that attract pollinators.
2. Sepal: Outermost part protecting the flower bud.
3. Stamen: Male reproductive organ comprising the anther (produces pollen) and filament.
4. Pistil (or Carpel): Female reproductive organ consisting of the stigma (receives pollen), style, and ovary (contains ovules).
5. Ovary: Part of the pistil that holds ovules, eventually becoming the fruit after fertilization.
These parts work together in reproduction, attracting pollinators, and facilitating the formation of seeds and fruits in plants.
See less