Research is important to national development because it can help predict certain events that can affect development. Research can help with the national planning process to determine areas that can be improved and activities that need to be discouraged.
The Unified Software Development Process is used when a person or business is working toward developing new software. The process has four distinct phases.
Validation is done at the end of the development process and takes place after verification process is completed. According to CMM we can also define it as the process of evaluating software during or at the end of the development process to determine whether it satisfies specified requirements.
A System Development Life Cycle is the process of developing a system or software. Prototype is the process of creating examples of software applications,
The former is an old process whilst the latter is a new one.
Organogenesis occurs within the first trimester of fetal development.
Organogenesis refers to the process by which organs develop from embryonic cells through a series of complex cellular interactions. This process involves the differentiation and organization of cells into specific tissues and structures that eventually form functional organs in an organism. Organogenesis is a critical stage of embryonic development that establishes the foundation for an organism's body structure and function.
Organogenesis is the process by which a mass of cells in a developing embryo differentiates and develops into a functioning organ. In the embryo, all cells are basically stem cells and all alike. Once the process of organogenesis takes place and the beginnings of specialized organs form, the fetal stage begins.
The term for the process of organ formation in an embryo is called "organogenesis." During organogenesis, the cells within the embryo differentiate and specialize to develop into the various organs and tissues of the body.
the stages of growth are: gametogenesis fertilization cleavage or segmentation blastulation gastrulation organogenesis
organogenesis: -production of UNIPOLAR structure (shoot OR root PRIMODIUM) -vascular system CONNECTED to parent tissue somatic embryogenesis: - production of BIPOLAR structure (shoot AND root axes) - vascular system NOT CONNECTED to parent tissue
The stages of early animal development in the correct order are: fertilization, cleavage, gastrulation, and organogenesis. Fertilization is the fusion of gametes to form a zygote, cleavage is rapid cell division of the zygote, gastrulation is the formation of germ layers, and organogenesis is the formation of organs from the germ layers.
The six stages of animal development are fertilization, cleavage, gastrulation, organogenesis, growth, and adulthood. Fertilization occurs when the sperm and egg fuse to form a zygote, which then undergoes cell division during cleavage. Gastrulation involves cell movements that form the three germ layers, leading to organogenesis where organs begin to develop. Finally, growth occurs as the organism matures into adulthood.
The process is called development. After fertilization, the zygote undergoes cell division (cleavage) and differentiation to form specialized cell types and tissues. This continues through stages like gastrulation and organogenesis until the organism reaches maturity.
meiosis...fertilization...mitosis
During the growth and development of an embryo, cells divide and differentiate into specialized cell types, organs and tissues form, and the body plan begins to take shape. The process involves various stages such as implantation, gastrulation, neurulation, and organogenesis. Genetic factors and environmental cues play crucial roles in guiding the development of the embryo.
Fertilization, cleavage, blastulation, gastrulation, organogenesis.