Chloroplast.
Chloroplasts are green pigment used in the process of photosynthesis found in leaves.
Leucoplast.
Leucoplasts are colourless and are the storehouse of minerals and other nutrients found in the roots of plants.
Both have own DNA and ribosomes. Chloroplast makes ATP and mitochondria break them
Chloroplasts are responsible for photosynthesis, converting sunlight into chemical energy. Etioplasts are chloroplast precursors that develop in darkness. Chromoplasts store pigments for fruit and flower coloration. Leucoplasts are involved in storing starch, while amyloplasts specifically store starch. Proteinoplasts are responsible for synthesizing and storing proteins within a cell.
A leucoplast can be analogized to a blank canvas waiting to be painted. Just as a leucoplast is an organelle in a plant cell that can transform into other types of plastids depending on the plant's needs, a blank canvas has the potential to become any type of artwork based on the artist's vision and creativity.
chloroplast
Leucoplast - Leucoplasts are a category of plastid and as such are organelles found in plant cells. They are non-pigmented, in contrast to other plastids such as the chloroplast. Lacking pigments, leucoplasts are not green, so they are predictably located in roots and non-photosynthetic tissues of plants
u should ask your Biology teacher
Difference between chloroplast and chromoplast : Chloroplast; 1) Chloroplast are green plastids. 2) They contains chlorophyll and carotenoids. 3) Lamellae are present in them. 4) They are sites of photosynthesis. Chromoplast: 1) Chromoplasts are non-green coloured plastids. 2) Chlorophylls are absent only carotenoids are present. 3) Lemallae are absent in them. 4) They add colour to the organs( e.g., flowers, fruits) for attracting animals to perform pollination and fruit dispersal.
In the structure of a chloroplast, a thylakoid is a membrane-bound compartment where photosynthesis takes place, while a grana is a stack of thylakoids. The grana are interconnected by stroma thylakoids, which help in the exchange of materials within the chloroplast.
chloroplast and large vacuole and cellulose cell wall
yes
leucoplast
Both have own DNA and ribosomes. Chloroplast makes ATP and mitochondria break them
Plant cells have cell walls and chloroplast
The space between the inner chloroplast membrane and the grana is called the stroma.
The chloroplast is the site of photosynthesis. The chloroplast is composed of the lumen and the stroma. The inside of the chloroplast looks like stacks of discs with gel in between them.
Chloroplasts are responsible for photosynthesis, converting sunlight into chemical energy. Etioplasts are chloroplast precursors that develop in darkness. Chromoplasts store pigments for fruit and flower coloration. Leucoplasts are involved in storing starch, while amyloplasts specifically store starch. Proteinoplasts are responsible for synthesizing and storing proteins within a cell.
The major difference between them is that an animal cell does NOT have a cell wall and chloroplast like those in plants.