Yes. An udder cell was taken from one sheep and injected into an unfertilized cell. These were caused to fuse by the use of electrical pulses. Once fused, the cell was transplanted into a surrogate mother.
Yes, this how the clone of sheep named Dolly was created.
true
If you remove the outer electrons of an atom, the remaining nucleus and inner electons would be called an ion.
No. This is because the cell will no longer be able to manufacture protein (since the DNA in the nucleus will also have been removed)
an isotope of the element helium is obtained.
Cells don't die after the nucleus is removed. That is how we clone things, we remove the nucleus from an unfertilised egg cell and insert the DNA of the animal we wish to clone.
The electrostatic force of attraction between the positive nucleus and the negative electron must.
The amoeba dies
depends on how they did it. Did they remove your ovaries? If not your ovaries will produce more eggs. They can not remove all of them unless they remove your ovaries. Then you will no longer produce eggs.
Creating clones
If you remove the outer electrons of an atom, the remaining nucleus and inner electons would be called an ion.
What?
The lamb will look like Harry because it has his genetic information (the nucleus taken from Harry) planted inside it. It will not look like Sally because her nucleus has been removed and so it no longer contains any genetic information to do with her.
No. This is because the cell will no longer be able to manufacture protein (since the DNA in the nucleus will also have been removed)
an isotope of the element helium is obtained.
The electron
Yes
the force of attraction between then nucleus and the valence electrons is less than that between the nucleus and the core electrons
Think of it as like trying to lift a heavy stone up out of a conical pit. The nucleus is down at the bottom of the pit. It takes more work (energy) to remove the stones (electrons) that are deeper in the pit (closer to the nucleus). Remember that the lower numbered shells are lower (deeper) in the pit, and you won't go wrong.