All have the same nuclear charge and consequently the same electron configuration.
Chemically isotopes (excepting H,D,T) are identical.
Isotopes of the same element have the same number of protons. They will also have the same number of electrons in a neutral state. Where they differ is in the number of neutrons in the nucleus. The chemical properties of an element are almost entirely determined by its electron structure, since chemical bonds can be understood as the transfer or sharing of electrons. This means isotopes of the same element will behave in the same way chemically. They will form the same chemical compounds and be largely indistinguishable from their isotopic brethren.
The atoms may be slightly different in shape or size etc. however if they are all of the same type they will all behave and react in the same way. Eg. Two atoms of Frankium may be different in the ways I have described but their chemical properties, behaviour and reactivity are the same.
Not directly. Isotopes are different forms of an element having different numbers of neutrons in their nucleus. But as different isotopes have the same chemical properties, they all can form the same compounds which function the same chemically.
The property of isotopes that allows radiotracers to be useful in studying chemical reactions is their ability to emit radiation, which can be detected and tracked. By substituting a stable isotope with a radioactive isotope in a molecule, researchers can track the movement and transformation of the molecule during a chemical reaction by measuring the emitted radiation.
Atoms of the same element have the same number of protons, which determines their identity. However, they may have different numbers of neutrons, leading to different isotopes of the element. These isotopes can have slightly different physical properties but behave chemically in the same way.
The basic reason that it is difficult for the chemist to distinguish between isotopes is that all the isotopes of a given element have the same chemistry. They all behave the same way chemically because the only difference between these isotopes is the number of neutrons in the nucleus of these atoms. And the number of neutrons in the nucleus doesn't really affect the chemistry of an atom of a given element.
Chemically isotopes (excepting H,D,T) are identical.
Isotopes of the same element have the same number of protons. They will also have the same number of electrons in a neutral state. Where they differ is in the number of neutrons in the nucleus. The chemical properties of an element are almost entirely determined by its electron structure, since chemical bonds can be understood as the transfer or sharing of electrons. This means isotopes of the same element will behave in the same way chemically. They will form the same chemical compounds and be largely indistinguishable from their isotopic brethren.
All isotopes of a substance are chemically the same. It is their physical properties which are different.
The atoms may be slightly different in shape or size etc. however if they are all of the same type they will all behave and react in the same way. Eg. Two atoms of Frankium may be different in the ways I have described but their chemical properties, behaviour and reactivity are the same.
Not directly. Isotopes are different forms of an element having different numbers of neutrons in their nucleus. But as different isotopes have the same chemical properties, they all can form the same compounds which function the same chemically.
because chemical reactions rely on the donation, acceptance and/or sharing of electrons - if the number of electrons remains the same, the chemical behavior tends to remain the same (and isotopes of the same element will all have the same number of electrons and valence shell occupations).
Dalton said that all atoms of one element are identical. they are chemically identical but not identical in mass. he did not know of isotopes, which are chemically identical atoms with different numbers of neutral neutrons. ex: all carbon atoms act the same chemically but some mass at 12, others at 14.
The property of isotopes that allows radiotracers to be useful in studying chemical reactions is their ability to emit radiation, which can be detected and tracked. By substituting a stable isotope with a radioactive isotope in a molecule, researchers can track the movement and transformation of the molecule during a chemical reaction by measuring the emitted radiation.
Yes, the three isotopes of carbon (carbon-12, carbon-13, carbon-14) are chemically alike because they all have the same number of protons and electrons, which determine the element's chemical properties. The only difference is in their atomic mass due to the varying number of neutrons.
Isotopes The weights are different because the quantity of neutrons are different. However, the Isotopes still have exactly the same number of protons and electrons as each other, so they are chemically identical. Just the weights are different.