A morula is generally larger in size than the original zygote. The zygote divides through mitosis to form the morula, which is a cluster of cells.
Embryo size depends upon size of animal .
the size of a pinhead
Generally by 5 weeks you will really notice slight differences in comb size - males will have slightly larger combs, length of the legs, size of the feet - males will have slightly longer legs and larger feet, and presence of saddle feathers - only the male will have pointed saddle feathers, hens are rounded.
A turkey's brain is relatively small compared to its body size, weighing about 0.1% of its total body weight. It is roughly the size of a walnut.
the size is gonna be like an apple
Actual size is 4 cm.And for the stage 1 of the embryo (Enlarged size) around 0 to 3 cm. :)Its around a hundredth of a mm
The series of cellular divisions by which the zygote becomes a multicellular embryo is known as cleavage. During cleavage, the zygote undergoes multiple rapid divisions without growth in between, leading to the formation of a blastula or blastocyst.
At 16 weeks, a human embryo is about 4.6 inches (11.6 centimeters) long. It is about the size of an avocado and is starting to develop more defined features like facial expressions and fingernails.
After cleavage finishes, the cell cycle continues as normal - cell division slows, yet cells grow in size instead of just continually dividing. This is when gastrulation begins (the in-folding of the hollow blastula into multiple germ layers forming the ectoderm, mesoderm, and endoderm).
A morula is generally larger in size than the original zygote. The zygote divides through mitosis to form the morula, which is a cluster of cells.
During cleavage, the major visible change in the embryo is the rapid division of the zygote into smaller cells called blastomeres without significant growth in the overall size of the embryo. This process results in a multicellular structure known as the blastula, characterized by a hollow cavity called the blastocoel. The cleavage stage is crucial for establishing the foundational layers and organization of the developing embryo.
Embryo size depends upon size of animal .
Through growth and development.By growth we mean increase in size and also in the number of cells. An adult human, for example, has about 10 or even 100 trillion cells. The cell divisions are mitosis.By development we mean that as the embryo grows cells become different, a process that is called, logically enough, differentiation. Cells not only become structurally different, but they acquire correspondingly different functions, too. So, to take a human again as an example, some cells are specialized for carrying oxygen around the body in the blood, some destroy bacteria that they encounter, others pump sugars out of the intestine into the blood after a meal, and so on. This division of labor makes for a highly complex and efficient organism.So the first thing that visibly happens to a zygote is that it divides by mitosis into two cells, then they divide to form a four-celled embryo, and so on. Eventually the ball of identical-looking cells hollows and acquires an axis, and differentiation begins.For more detail, see the links below.
The cells in the onion root tip are typically smaller and more uniform in size compared to the cells in a whitefish embryo. Additionally, the onion root tip cells are actively dividing, while the whitefish embryo cells are undergoing differentiation and organ development.
the size of a pinhead
A 1-day-old zygote is typically around 0.1 mm in size, which is about the size of a fine grain of sand. At this stage, the zygote consists of just a single cell formed by the fusion of an egg and a sperm.