If your on apex it’s false
When the repulsive strong nuclear force overcomes the attractive electrostatic force within an atom's nucleus, this can cause the atom to become unstable and radioactive. The imbalance leads to the emission of particles or energy in order to achieve a more stable configuration. This process is known as radioactive decay.
No. Radioactive elements are normally a result of the atom actually being an isotope of that element. An isotope is an atom of an element that has a different amount of neutrons than the norm. For example, the normal amount of neutrons in a Carbon atom is six, but Carbon-14 has eight, and Carbon-16 has ten. These isotopes are normally radioactive.
One can determine whether a force is attractive or repulsive by looking at the direction in which the force is acting. If the force is pulling objects towards each other, it is attractive. If the force is pushing objects away from each other, it is repulsive.
Gravity is strictly an attractive force, meaning it always pulls objects towards each other. It differs from magnetism, which can be both attractive and repulsive depending on the orientation of the magnetic fields.
Inside an atom's nucleus there is a neutron, which has no charge, therefore no attractive or repulsive forces. The proton carries a positive charge, though, and repels the negative charge of the electron particle which exists somewhere outside of the nucleus.I'm yet of the old technology which thinks that protons and electron attract. Of course, that doesn't explain why the electron don't crash into the proton, but that's another story.
When the repulsive strong nuclear force overcomes the attractive electrostatic force within an atom's nucleus, this can cause the atom to become unstable and radioactive. The imbalance leads to the emission of particles or energy in order to achieve a more stable configuration. This process is known as radioactive decay.
No. Radioactive elements are normally a result of the atom actually being an isotope of that element. An isotope is an atom of an element that has a different amount of neutrons than the norm. For example, the normal amount of neutrons in a Carbon atom is six, but Carbon-14 has eight, and Carbon-16 has ten. These isotopes are normally radioactive.
One can determine whether a force is attractive or repulsive by looking at the direction in which the force is acting. If the force is pulling objects towards each other, it is attractive. If the force is pushing objects away from each other, it is repulsive.
Gravity is strictly an attractive force, meaning it always pulls objects towards each other. It differs from magnetism, which can be both attractive and repulsive depending on the orientation of the magnetic fields.
Inside an atom's nucleus there is a neutron, which has no charge, therefore no attractive or repulsive forces. The proton carries a positive charge, though, and repels the negative charge of the electron particle which exists somewhere outside of the nucleus.I'm yet of the old technology which thinks that protons and electron attract. Of course, that doesn't explain why the electron don't crash into the proton, but that's another story.
Electric forces can be either attractive or repulsive. Like charges repel each other, while opposite charges attract each other.
attractive
Attractive, enchanting, pleasing, alluring, appealing, desirable.
the bond will not form
The opposite of repulsive is attractive or appealing. It refers to something that is pleasing or pleasant to look at or experience.
Electrostatic forces
ugly, repulsive, repellant