because of an error during meiosis or mitosis or because of something in the enviroment.
No. As long as the mutation does not occur in the reproductive cells (sperms or ovum), it will not be pass on to the offspring.
sex cells
A mutation in a cell's DNA can change the way the cell functions, leading to behaviors that are different from normal cells. This can result in abnormal growth, function, or communication with other cells, which can cause the cell to behave in ways that are distinct from healthy cells.
Mitochondrial gene mutations can disrupt the energy production process in cells, leading to various disorders. These disorders can affect tissues with high energy demands, such as the brain, muscles, and heart. Symptoms can vary widely depending on which cells are impacted and the severity of the mutation.
A mutation in egg cells
Mutations which do not occur in sex cells are not passed on to the next generation. The mutation will only affect the individual. They could therefore have normal offspring.
No, a mutation in a skin cell on your hand would not affect your offspring because mutations in somatic cells (like skin cells) are not passed on to the next generation. Offspring inherit genetic information from germ cells (sperm and egg cells) which are not affected by mutations in somatic cells.
You can have a baby with physical/mental deformities or death of the child.
A mutation in a human skin cannot be passed on to an offspring, since it is only a somatic mutation which is acquired. The mutation that can be passed on to an offspring is called a germline mutation, which happens in the egg and sperm.
Cells are affected by the movement of water by the diffusion of water that goes in and out of the cell will tell you how it functions.
A mutation in a cell's DNA can change the way the cell functions, leading to abnormal behavior that sets it apart from normal cells. This altered behavior can result in the cell growing uncontrollably, not responding to signals to stop growing, or behaving in ways that are harmful to the body.
Radioactivity and mutation in your cells