Answer:
Gregor Mendel is remembered as the "father of modern genetics" for his pioneering work on pea plants in the 19th century. He conducted a series of experiments to study how traits are inherited from one generation to the next, and his discoveries laid the foundation for our understanding of genetics.
Mendel's most significant contribution was his formulation of the laws of inheritance, now known as Mendelian inheritance. He proposed that traits are passed down from parents to offspring in discrete units called "genes." Through his experiments, he identified dominant and recessive traits and showed how they can be inherited independently of each other.
One of Mendel's famous experiments involved crossbreeding pea plants with different characteristics, such as flower color or seed texture. By carefully observing the resulting offspring and analyzing the patterns of inheritance, Mendel was able to deduce the basic rules of heredity. He found that traits are determined by pairs of alleles, with one allele inherited from each parent.
Mendel's work was not initially recognized during his lifetime, but his findings were rediscovered and widely accepted in the early 20th century. Today, his laws of inheritance are fundamental to the field of genetics and are taught in biology classrooms around the world.
In summary, Gregor Mendel is remembered for his groundbreaking experiments with pea plants, which led to the discovery of the laws of inheritance and laid the foundation for modern genetics. His work revolutionized our understanding of how traits are passed down from one generation to the next
B. Telophase
C. Interphase
He observes the formation of a cell plate. He is observing the phase of the cell cycle Cytokinesis.
Mitosis is used to produce daughter cells that are genetically identical to the parent cells which produces two daughter cells from one parent cell, during it division,shorter cell cycles occur in early embryo cells this later result to the daughter cells been smaller than the mother cell in the embryonic cell cycles
Thus, option "A" is correct.
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Answer:
The correct answer is organs.
Explanation:
The body of a human being is formed of various cells, that is, why it is considered as a multicellular organism. A multicellular species exhibits five layers of the organization, known as hierarchy, which lies in the order of complexity as organelles, cells, tissues, organs, and organ systems.
Of which organs comprise different tissues, which function together to perform a specific activity. The organs are further grouped together into organ systems. Some of the examples of organ systems are the circulatory system and the digestive system.