Cells are so specialized to carry out all the complex functions in animals and plants.
Complex animals tend to have specialized cells, bilateral symmetry, cephalization, and a body cavity.
Examples of animal cells that are present in animals but absent in plants include red blood cells, nerve cells (neurons), and muscle cells. These cells have specialized structures and functions that are unique to animals and support their specific physiological processes.
Sponges are classified as animals because they are multicellular, heterotrophic organisms that lack cell walls. They also have specialized cells and tissues, even though they lack complex organ systems.
Animals and plants both have eukaryotic cells, while bacteria and archaea have prokaryotic cells. There a many differences between the two types of cells. Some of the most significant are the presence of a nucleus and other membrane-bound organelles in eukaryotic cells.
Similarities: They both have 2 types of stem cells Differences: Apical meristem increases length and lateral increases width whereas in animals they become specialized cells to increase the efficiency of the systems in the body. in plants apical and lateral meristems can differentiate into any kind of cell whereas in animals only embryonic stem cells can do that not tissue stem cells.
Complex animals tend to have specialized cells, bilateral symmetry, cephalization, and a body cavity.
Yes. All complex plants and animals are composed of cells.
Complex plants are vascular plants that have well-developed structures for conducting water and nutrients, such as roots, stems, and leaves. These plants also have specialized reproductive structures and undergo alternation of generations, with distinct sporophyte and gametophyte stages. Examples of complex plants include flowering plants (angiosperms) and ferns.
More complex organisms including plants and animals are called multicellular organisms. These organisms are made up of different types of specialized cells that work together to form tissues, organs, and organ systems.
connective, muscular, nervous, & epithelial.
Animals have specialized cells such as nerve cells, muscle cells, and blood cells that are not found in plants. These cells are responsible for functions like movement, coordination, and transportation of nutrients and oxygen throughout the body.
specialized cells,bilateral cymmetry, cephalization and a body cavity
A complex organism is a living organism that is composed of distinct cells working together to perform various functions. These organisms can exhibit specialized structures and organ systems, allowing them to carry out more sophisticated activities compared to simpler organisms. Examples include humans, animals, and plants.
Examples of animal cells that are present in animals but absent in plants include red blood cells, nerve cells (neurons), and muscle cells. These cells have specialized structures and functions that are unique to animals and support their specific physiological processes.
The type of cellular organization found only in plants and animals is eukaryotic. Eukaryotic cells have a defined nucleus that houses genetic material and membrane-bound organelles, which perform specific functions within the cell. This type of cellular organization enables plants and animals to have complex structures and specialized functions.
Sponges are classified as animals because they are multicellular, heterotrophic organisms that lack cell walls. They also have specialized cells and tissues, even though they lack complex organ systems.
They consist of many types of cells working together. Cells differentiate into tissues that collectively form organs, in animals, capable of synergistic interactions. Even plants & fungi have specialized cellular tissue types even if they do not form organs.