![SOLVED: How do I calculate the origins of replication required in each cell Size of nuclear genome 2.04 m of DNA (B-form) Length of mitotic S phase 12 hr Rate of DNA SOLVED: How do I calculate the origins of replication required in each cell Size of nuclear genome 2.04 m of DNA (B-form) Length of mitotic S phase 12 hr Rate of DNA](https://cdn.numerade.com/ask_previews/6a0481d9-fecc-4a45-8910-cf9489623503_large.jpg)
SOLVED: How do I calculate the origins of replication required in each cell Size of nuclear genome 2.04 m of DNA (B-form) Length of mitotic S phase 12 hr Rate of DNA
![A convex lens of focal length 0.10 m is used to form a magnified image of an object of height 5 mm - YouTube A convex lens of focal length 0.10 m is used to form a magnified image of an object of height 5 mm - YouTube](https://i.ytimg.com/vi/uIrgHFA3pFs/mqdefault.jpg)
A convex lens of focal length 0.10 m is used to form a magnified image of an object of height 5 mm - YouTube
![The size of the image of an object, which is at infinity, as formed by a convex lens of focal length 30cm is 2cm . If a concave lens of focal length The size of the image of an object, which is at infinity, as formed by a convex lens of focal length 30cm is 2cm . If a concave lens of focal length](https://dwes9vv9u0550.cloudfront.net/images/7462526/e644c0eb-2610-477b-b3c6-25ce86cf6102.jpg)
The size of the image of an object, which is at infinity, as formed by a convex lens of focal length 30cm is 2cm . If a concave lens of focal length
![The hardness calculated from equation (15) as a function of grain sizes... | Download Scientific Diagram The hardness calculated from equation (15) as a function of grain sizes... | Download Scientific Diagram](https://www.researchgate.net/publication/258304512/figure/fig2/AS:329718701281282@1455622472265/The-hardness-calculated-from-equation15-as-a-function-of-grain-sizes-in-the-form-of.png)
The hardness calculated from equation (15) as a function of grain sizes... | Download Scientific Diagram
![64 drops of the same size are 1 charged to 300 V each. These drops coalesce to form a bigger drop. Calculate the potential of bigger drop. 64 drops of the same size are 1 charged to 300 V each. These drops coalesce to form a bigger drop. Calculate the potential of bigger drop.](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/646644745_web.png)