The blast radius of an atomic bomb can vary depending on the size of the bomb and the height at which it detonates. In general, the blast radius of a nuclear bomb can extend for several miles, causing destruction within a radius of 1-5 miles or more. It can cover an area of several square miles, destroying buildings and causing severe damage within that zone.
The atomic radius of Xenon is about 108 picometers (pm).
The negative ionic radius is larger than the neutral atomic radius
An atom bomb can explode either in the air or on the ground, depending on the desired effect. Airbursts are detonated above the ground to maximize the blast radius and thermal effects, while ground bursts are detonated on the ground to increase the amount of fallout produced. Both types of explosions have their unique characteristics and effects.
Yes, argon does have an atomic radius. The atomic radius is the distance from the nucleus of an atom to the outermost electron orbital. In the case of argon, its atomic radius is about 0.98 angstroms.
The size of an atom is typically measured in terms of its atomic radius, which for helium is approximately 31 picometers (pm), or 0.31 angstroms. This corresponds to the distance from the nucleus to the outermost electron cloud in a helium atom.
It depends on if you are within the blast radius of an atomic bomb...<br><br>If you are within the firey blast radius of the bomb, then no. You will feel nothing at all. The heat from an atom bomb is so intense that not only does it sear your nerve endings shut, it completely turns you into dust. So, in other words, you will be dead before your brain comprehends what has happened.
Scandium empirical atom radius: 160 pm Scandium calculated atom radius: 184 pm
The radius of an oxygen atom is approximately 0.65 angstroms.
An iodine atom has one more principal energy level than a bromine atom. Therefore the radius of an iodine atom is greater than the latter.
The radius of a rhodium atom is approximately 1.35 angstroms.
When determining the size of an atom by measuring the bond radius, the radius of an atom is typically defined as half the distance between the nuclei of two atoms that are bonded together. This is known as the covalent radius.
When an atom becomes a cation, it loses one or more electrons, causing the outermost electron shell to contract. This contraction of the electron cloud results in a decrease in the atomic radius of the cation compared to the neutral atom.
The radius of a cadmium atom is smaller than the radium of a mercury atom. The trend for atomic radius is that the radius becomes larger toward the left side of the row and toward the bottom of the group.
the radius of an atom gets larger when moving left to right across the Periodic Table because elements gain protons and electrons- the increase in charge brings the atom radius in
An atom of fluorine
The radius of the atom increases when it becomes an anion. This is because an anion gains extra electrons, leading to increased electron-electron repulsion, which pushes the electron cloud outward.
Smaller