the answer is CHROMOSOME your very welcome
The two-rod structures that contain the cell's DNA is the chromosome.
The two rod structures that contain the cell's DNA are chromosomes and chromatin. Chromosomes are highly condensed structures that contain the DNA during cell division, while chromatin is the relaxed form of DNA that is present in the nucleus during interphase.
Chromatin is intertwinted mass of fine thread-like structure made of DNA and protein. During cell division (mitosis and meiosis), chromatin condenses to form thicker rod-like structures called chromosomes. Each chromosome consists of two similar halves called chromatids. Formation of chromosomes having two similar halves or chromatids is meant for equitable distribution of chromatin which is hereditary material.
Chromatin is intertwinted mass of fine thread-like structure made of DNA and protein. During cell division (mitosis and meiosis), chromatin condenses to form thicker rod-like structures called chromosomes. Each chromosome consists of two similar halves called chromatids. Formation of chromosomes having two similar halves or chromatids is meant for equitable distribution of chromatin which is hereditary material.
During cell division, the chromatin reticulum condenses further into visible structures called chromosomes. This condensation allows for the organized distribution of genetic material to daughter cells. The chromosomes consist of DNA wrapped around protein scaffolds, which help to package and protect the genetic material during cell division.
The doubled rod of condensed chromatin is known as a chromosome. Chromosomes are tightly packed structures of DNA and protein that contain the genetic information of an organism. During cell division, chromosomes condense further to facilitate separation and distribution of genetic material to daughter cells.
chromatin
The two-rod structures that contain the cell's DNA is the chromosome.
Since its length is doubled, the number of molecules present increase, resulting in an increase in mass of the rod. And we all know that mass is directly proportional to inertia, therefore the moment of inertia also increases.
The two rod structures that contain the cell's DNA are chromosomes and chromatin. Chromosomes are highly condensed structures that contain the DNA during cell division, while chromatin is the relaxed form of DNA that is present in the nucleus during interphase.
The dark staining rod-shaped structures found in cells undergoing cell division are called chromosomes. They are composed of highly coiled chromatin, which is a complex of DNA and proteins that condenses to form chromosomes during cell division. Each chromosome contains the genetic information that is passed on to daughter cells.
Chromatin is intertwinted mass of fine thread-like structure made of DNA and protein. During cell division (mitosis and meiosis), chromatin condenses to form thicker rod-like structures called chromosomes. Each chromosome consists of two similar halves called chromatids. Formation of chromosomes having two similar halves or chromatids is meant for equitable distribution of chromatin which is hereditary material.
A double rod of condensed chromatin containing DNA that carries genetic information is called a chromosome. Chromosomes are found in the nucleus of a cell and consist of DNA wrapped around proteins called histones. They are responsible for carrying and transmitting an organism's genetic information to the next generation.
Chromatin is intertwinted mass of fine thread-like structure made of DNA and protein. During cell division (mitosis and meiosis), chromatin condenses to form thicker rod-like structures called chromosomes. Each chromosome consists of two similar halves called chromatids. Formation of chromosomes having two similar halves or chromatids is meant for equitable distribution of chromatin which is hereditary material.
When the area of a rod is doubled, the heat conduction through the rod increases, assuming the temperature gradient remains constant. This is because heat conduction is proportional to the cross-sectional area, as described by Fourier's law of heat conduction. Specifically, doubling the area allows more heat to flow through the rod, effectively increasing the overall heat transfer rate. However, the material's thermal conductivity and the temperature difference across the rod will also influence the total heat conducted.
That is approximately 3/4 of a cup.
Yes, they do have chromatin.