because of the chromosomes the parents will give 23 of their chromosomes to the baby born and then that baby has 46 chromosomes in all.this method is called mitosis.
Chlorobiastic
Identical offspring formed from a single cell or tissue result from asexual reproduction, where a parent organism replicates its genetic material to produce genetically identical offspring. This process ensures that the offspring inherit the exact genetic information of the parent, leading to identical characteristics and traits. Examples include cloning in plants and animals.
The sets of genes a parent passes down to their offspring are determined by the genetic material in their sperm or egg cells. During the process of meiosis, genetic material is shuffled and separated into gametes, which combine during fertilization to form the offspring's genetic blueprint. This process results in unique combinations of genes being passed down from each parent to their offspring.
baby my h.
Offspring do not always resemble their parents due to genetic variation, which results from the combination of genes inherited from both parents. Each parent contributes a unique mix of alleles, leading to different traits in their children. Additionally, environmental factors and mutations can influence physical characteristics, further diversifying the appearance of offspring. This genetic and environmental interplay ensures that each individual is unique.
the child has only one parent so the offspring will look exactly like the parent.
Chlorobiastic
Offspring of asexual reproduction are genetically identical to the parent, so they look very similar or identical to the parent organism. They do not exhibit genetic variation like offspring from sexual reproduction.
Offspring inherit a combination of genes from both parents, resulting in a unique genetic makeup. This genetic variation leads to differences in physical traits and characteristics, making offspring not look exactly like either parent. Additionally, genetic recombination and independent assortment during meiosis further contribute to the variability in offspring characteristics.
No, the offspring of identical parents would not always look like the parents because everyone has dominant and recessive traits, where the recessive traits do not show but is still in DNA. That said, recessive traits not shown in parents can be passed on as dominant traits to offspring - making offspring not always identical to its parents. (this is also called genetic variation)
If snapdragons showed complete dominance, the offspring would display the dominant trait from one parent. This means all the offspring would have the same physical appearance as the parent with the dominant trait, without any variation.
Simply because each offspring contains 50% of the genetic material from each parent. From the moment of conception - every time the cells divide - each one contains a copy of half the DNA from each parent.
Offspring don't look exactly like their parents due to a combination of genetic variability from both parents, random assortment of genes during reproduction, and genetic mutations that can occur. This genetic diversity is what allows for evolution and adaptation to changing environments.
Offspring does not look exactly like the parent because in humans, only sexual reproduction is possible, which involves 2 parents which exchange DNA to form offspring with different DNA and genetic information than both parents.
nothing can determine what the offspring will look like except for the dominant alleles for eye color
They are mealworms. They are the offspring of the adult beetles.
they look like grown up lynx only smaller