Similar in number of protons, electrons, thus in chemical properties, except in nuclear reactions.
Different in number of neutrons, mass and a lot of physical properties.
Isotopes of an element have the same number of protons but different numbers of neutrons. They are chemically similar due to the same number of electrons, but have different atomic masses. This leads to variations in stability, radioactivity, and physical properties among isotopes of an element.
Isotopes are atoms that share the number of protons (which effectively means same number of electrons when neutral) but differ in the number of neutrons (thus the Atomic Mass). Isotopes usually share the same chemically characteristics, since only electrons are involved in simple chemical equations.
But in nuclear chemistry, the isotopes usually differ in stability, since there is an important balance between the number of neutrons and protons in a nucleus that holds it together, thus uncommon isotopes (i.e. ones with atomic mass drastically different from the listed atomic mass on the Periodic Table) usually are extremely unstable and will decay to the more stable form (usually the common atomic mass or to a smaller atom).
Two isotopes of the same element have the same number of protons in their atomic nuclei and if neutral, the same number of electrons as protons. The difference is the number of neutrons in the nucleus.
An isotope is one form of an element. An element's isotopes differ in the number of neutrons. Chemically, all the isotopes of an element are the same. They differ in atomic weight because of the difference in neutrons.
In common use, the word isotope usually refers to the less stable isotopes of an element, which break down through radioactive decay.
Isotopes are the variations of elements regarding the amount of protons and neutrons in a nucleus.
All of the isotopes of an element have the same atomic number, and therefore, the same number of protons in the nuclei of their atoms. They also have the same number of electrons. Isotopes of an element differ in the number of neutrons in the nuclei of their atoms. Since mass number is the number of protons and neutrons in the nuclei of an isotopes atoms, they also differ in mass number.
Their chemistry is almost identical, as is their physical properties.
Before the mass spectrometer it was next to impossible to separate isotopes.
The isotopes of an element has the same number of protons and electrons, but a different number of neutrons.
The number of protons and electrons is identical; the number of neutrons is different.
The similarities among the same element include having the same number of protons in the nucleus, which determines the element's identity, as well as similar chemical properties and behaviors based on their electron configuration. Additionally, isotopes of the same element share the same number of protons but differ in the number of neutrons.
An isotope is a form of an element. Isotopes (forms of an element) occur when an atom/s of a single chemical element gains or loses 1 or more neutrons. Eg.. the first isotope "Hydrogen-1" or "Protium" hydrogen has 1 proton in the centre of the atom or nucleus, and 1 electron going around on the outside, isotope two "Hydrogen-2" or "Deuterium" Hydrogen, has 1 proton AND 1 neutron in the nucleus and 1 electron, and isotope three is "Tritium" Hydrogen that has 1 proton, 2 neutrons and 1 electron. The number of protons always stays the same, it's the number of neutrons that determines the form of an element or in other words the isotope.
The differences in mass among atoms are primarily due to variations in the mass of their protons, neutrons, and electrons. Protons and neutrons contribute most of the mass, with electrons being much lighter in comparison. The number and arrangement of these particles in an atom determine its mass.
Hydrogen has three stable isotopes: protium (1H), deuterium (2H), and tritium (3H). Among these, protium is the most abundant, making up over 99.98% of naturally occurring hydrogen.
In a single replacement reaction, the element that is most active is the one that is higher up on the reactivity series than the element it is trying to replace. The more active element will displace the less active element in the reaction.
Ions and isotopes both involve atoms that have different numbers of particles. Ions have a different number of electrons compared to protons, leading to a charge. Isotopes have a different number of neutrons, leading to variations in atomic mass but not charge.
Colorful costumes
distinction and similarities among 3 powers of the state
The similarities among the same element include having the same number of protons in the nucleus, which determines the element's identity, as well as similar chemical properties and behaviors based on their electron configuration. Additionally, isotopes of the same element share the same number of protons but differ in the number of neutrons.
Comparative Embryology
comparative anatomy
No, the number of neutrons vary, but protons and electrons are static among an element.
Number of neutrons in the nucleus.
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comparative anatomy
One common procedure for comparing cultural similarities and differences among societies is conducting cross-cultural studies. This involves examining various aspects of different cultures, such as beliefs, values, customs, and behaviors, to identify commonalities and differences. Researchers often use methods like surveys, interviews, and observations to gather data and analyze it to draw conclusions about cultural similarities and differences.
The procedure of comparing cultural similarities and differences among societies is called cross-cultural analysis. It involves studying various aspects of culture such as beliefs, values, norms, customs, language, and social institutions to identify similarities and differences between different societies. This analysis helps in understanding cultural diversity and its impact on societies.