There are 5 neutron in b-10, and 6 in boron-11
Carbon has atomic number 6; and boron, 5. So although both isotopes of different elements have the same mass number, carbon-11 will have 5 neutrons while boron-11 have 6 neutrons. However their relative isotopic mass is the same.
There are 5 neutrons in boron-10 and 6 neutrons in boron-11.
Boron-10
The atomic number of boron is 5, one less than the atomic number of the atom in the block to its immediate right.
YES
Pure boron (a metalloid) is not found in nature. Boron will be combined with something else. Pure boron could be shiny, but will usually be a brown powder when combined with carbon.
It is just named the boron group. The elements in the group are boron (B), aluminum (Al), gallium (Ga), indium (In), thallium (Tl), and unumtrium (Uut) (scienticially prepared). The boron group all have 3 electrons in their valence levels making them an unstable group.
This is very simple, just look at the periodic table. Boron has the atomic number of 5, meaning that it has five protons and five electrons. As for the neutrons, most chemicals have isotopes, which means that one atom of an element may have a slightly lower or higher neutron count of an atom of the same element. In boron's case, it has two isotopes. Boron-10 would have 5 neutrons, and Boron-11 would have 6 neutrons, although boron-11 makes up somewhere in the range of 80% of known boron atoms.
There are 5 neutrons in boron-10 and 6 neutrons in boron-11.
There are 5 neutron in b-10, and 6 in boron-11
For starters they are both isotopes of Boron. The boron in the periodic table has an atomic weight of 10.8, which is basically the average of all of boron's isotopes' atomic weights.An isotope is an atom of an element with the same number of protons, but a different numberof neutrons.This means that the atomic number (proton number: in boron's case this is 5) is the same (which is good, as it's the number of protons which determines what element is which), but the mass number will be different.For example. Carbon 12 has 6 protons, 6 neutronsand 6 electrons. A well known isotope of Carbon 12 is Carbon 14. Note that the number is always the mass number. This means that in Carbon 14, there are still 6 protons and 6 electrons (we know this as it is still carbon; hence still has 6 protons, and is still neutral; hence still has 6 electrons), but there are 8 neutrons.So the difference between boron 10 and boron 11 is that boron 10 has one less neutron than boron 11, or, equally, boron 11 has one more neutron than boron 10.This means that they will have the same chemical properties (will react the same), but will have different physical properties (eg. Boron 11 will be slightly heavier than boron 10).
Boron and carbon are not similar but both are nonmetals.
Under favorable conditions, carbon and boron can react to form boron carbide.
Boron -11
Boron is lighter than carbon and uranium.
Boron-11 is an isotope. The atomic number of Boron is 5 which means it has 5 protons, (if there were more or less protons the element wouldn't be boron). the isotope number (11) is the number of protons plus neutrons. to find out the number of neutrons you would take take the isotope and subtract it by number of protons (11-5) which yields 6. To find the isotope add the number of protons to the number of neutrons.
Boron comes from borax and carbon combined (since it was thought to resemble carbon and is contained in borax).
Boron got its name from the elements "borax" and "Carbon"
Boron-11 (80%) and boron-10 (20%).
The answer is Carbon