Yes.
I suspect you mean "nucleus" (presumably of an atom, not a cell), not "nucleolus" (a strictly Biology term), but either way the answer is still yes.
It might help to consider a hole as a positive particle (or rather, quasi-particle). Any positive particle gets attracted by a negative charge, and repelled by a positive charge. Of course, in reality it is the electrons that move, to fill out the hole - but the effect is the same.
it is positive
The negatively charged phosphate groups of the DNA causes them to move only towards the positive poles
They effectively move a team toward maturity through specific positive actions.
They effectively move a team toward maturity through specific positive actions.
They repel each other like positive ones do. If one is negatively charged, and the other is positive, then they will move towards eachother!
Relative velocity of A wrt B = V - Vsin30 = V/2Time = distance / speedTime = 2a/VIn reality each particle will follow a curved path and eventually meet at the center of the hexagon.
what are particle that show comparasons of the speed at wich sound will move throught matirials ? what are particle that show comparasons of the speed at wich sound will move throught matirials ?
The subatomic particle that does not have a charge is the Neutron.The Proton carries a positive charge and an Electron, a negative.
tyga
when the radio active particle moves through the air, it gets charged. As a radio active particle gets negative charge, and the air around it gets positive charge, then the few electrons from the negatively charged particle goes to positively charged one to make the charges equal. (the more friction you apply, the more charge it gains) now the radio active particle gained positive charge compared with other particles. If the radio active particle flows over the electroscope and is near it within a limit, then the leaves may move together if the electroscope had been charged negative, else the leaves are charged positive then the leaves would diverge further . as the radio active particle is not actually touching the electroscope, the radiated energy from the radio active particle reaches the electroscope, and hence the charges would not transfer but the effect would be there until you take the radio active particle away. answered by K.Sreram from India
The types of particle transport mechanisms by which particles move into and out of the cell are diffusion, osmosis, and active transport.