Taking both will lead to a new, neutral element.
Taking away an electron will make it positively charged, and taking away a proton will make it negatively charged.
Removing both of these make it neutral, and it forms an element one atomic number smaller.
When you remove a proton from an atom, it changes into a different element. The element becomes one with an atomic number one less than before, which affects its chemical properties. This process alters the balance of positive and negative charges within the nucleus, potentially leading to radioactive decay in certain situations.
It becomes a new element
Approximately 1836
When a proton is added to a germanium nucleus, the overall charge of the nucleus increases by one unit, making it less stable. This can lead to the germanium nucleus undergoing beta decay to regain stability, where a proton is converted into a neutron by emitting a positron and a neutrino.
1836 electrons equal the mass of 1 proton. A proton has a mass of 1.0073 amu, a neutron 1.0087 amu, and an electron 5.486 x 10-4. So, it would take 1836 electrons to equal the mass of 1 proton.
test7
where is proton in atom
Because it is a proton. A hydrogen atom is a proton and an electron; if you take the electron away to form a positive ion, all that's left is the proton.
Im thinking you mean add instead of had? well when you add a proton it becomes a different element because each element has a different number of protons. When you add electrons or take away electrons they become ions. If the neutrons in the nucleus changes it becomes an isotope. To conclude, each element has its own unique proton count.
They convert in to two photons
because elements are so close together that if you take away even just one proton the element is now another element!
If it were possible to add a proton to atoms, then the germanium would turn into arsenic.
Physical change
it doesnt get hot
You go to Confession
it doesnt get hot
it gets angry
Uranium minus a proton (hydrogen atom) is protactinium.? That is, if you could get it to do that - this is an unusual reaction.
They head out of the sun at nearly the speed of light