i dont really know but someone pls found out what the answer is plssssss thank yyou
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Three character traits of Cam Jansen are: smart, clever, brave.
"Frankenstein," which translates from the German as "stone of the Franks," was the family name of the scientist, who was Swiss. (Switzerland's three primary languages are German, French, and Italian.) The Frankenstein "monster" had no actual name.
No. She is saved by Harry and is still alive (and married to Harry with three children) in the epilogue.
Shannon Lucid has three children: two daughters named Jennifer and Laura, and a son named John. She is known for her contributions to space exploration as an astronaut and scientist.
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Gregor Mendel used the garden pea plant because it was easy to control and manipulate in breeding experiments, had distinct traits that were easy to observe, and had a short reproductive cycle allowing for quick results and large sample sizes.
Mendel chose pea plants because they have easily distinguishable traits, exhibit true breeding, and can self-pollinate. These traits allowed him to control the genetic crosses and analyze the inheritance patterns accurately.
Gregor Mendel is considered the father of genetics for the experiments he conducted on pea plants. These experiments were neatly planned and result were so meticulously recorded that several years later, three investigators in the field of biology were able to put together a theory that described his observations.
In the early 1900s, the laws that Mendel had already formulated almost four decades earlier -- and which had been published in a scientific journal -- were re-discovered, independently, by three different researchers. After these ideas were published, it was noted that they had actually been discovered decades earlier -- but simply ignored. Since then, inheritance of traits by species has been known as "Mendelian." So the importance of his ideas has been recognized for over a century.
Gregor Mendel formulated three laws of inheritance: the Law of Segregation (allele pairs separate during gamete formation), the Law of Independent Assortment (traits are inherited independently), and the Law of Dominance (one allele will be dominant over another in the phenotype).
The ratio of dominant to recessive traits in the F2 generation of Mendel's experiments was 3:1. This is known as the phenotypic ratio for a monohybrid cross, where three individuals display the dominant trait for every one individual displaying the recessive trait.
Gregor Mendel conducted experiments on pea plants to study the patterns of inheritance of traits. He crossed peas with different traits, like round vs. wrinkled seeds or yellow vs. green seeds, and carefully analyzed the offspring to understand how traits are passed from one generation to the next. Mendel's work laid the foundation for the field of genetics.
Mendel's ratios refer to the predictable patterns of inheritance observed in his genetic experiments with pea plants. The most notable ratios are the 3:1 phenotypic ratio in monohybrid crosses, indicating that three offspring display the dominant trait for every one that shows the recessive trait. In dihybrid crosses, Mendel observed a 9:3:3:1 ratio in the offspring phenotypes, representing the combinations of two traits. These ratios form the foundation of Mendelian genetics, illustrating how traits are inherited independently.
Mendel's three parts of his hypothesis are: the principle of segregation (alleles separate during gamete formation), the principle of independent assortment (traits are inherited independently of each other), and the principle of dominance (one allele is dominant over another).
Mendel was a monk who bred pea plants with different traits to see how they were inherited. Breeding a tall and a short plant together, for instance, produced three tall plants and one short one, leading him to believe the tall trait was dominant over the short one. It laid the foundation for modern genetics, although many of his assumptions (that all traits are fully independent for instance) turned out to be incorrect.
Mendel's principle of independent assortment would apply, as the alleles for each trait are inherited independently of one another. This means the combination of alleles for one trait does not influence the combinations for the other traits. Each trait would follow the principles of segregation and independent assortment individually during genetic inheritance.