The parent isotope is the original radioactive isotope that undergoes decay to form the daughter isotope. The daughter isotope is the stable isotope that is formed as a result of the radioactive decay of the parent isotope.
An isotope is not a chemical property; rather, it refers to different forms of an element that have the same number of protons but different numbers of neutrons. Isotopes can affect the physical properties of an element, such as its mass and stability, but they do not change its chemical properties.
An isotope is an atom that has an irregular number of neutrons in its nucleus. Since it has the same number of protons as a normal atom, they still have the same chemical properties and are still technically the same thing, but since the atomic weight is different they have slightly different physical properties.
Isotopes of an element have same number of protons and different number of neutrons. Hence similar in chemical properties and different in physical properties.
The daughter isotope is the result of the radioactive disintegration of the parent isotope. For example radium is a product of the uranium disintegration.The two isotopes have different chemical (different atomic numbers, etc.), physical and nuclear properties.
This is important because each isotope has different properties.
An isotope differs from its parent element in the number of neutrons in its nucleus, which can affect its stability and properties.
an isotope
The parent isotope is the original radioactive isotope that undergoes decay to form the daughter isotope. The daughter isotope is the stable isotope that is formed as a result of the radioactive decay of the parent isotope.
An isotope is not a chemical property; rather, it refers to different forms of an element that have the same number of protons but different numbers of neutrons. Isotopes can affect the physical properties of an element, such as its mass and stability, but they do not change its chemical properties.
An isotope is an atom that has an irregular number of neutrons in its nucleus. Since it has the same number of protons as a normal atom, they still have the same chemical properties and are still technically the same thing, but since the atomic weight is different they have slightly different physical properties.
An isotope is an element that has the same number of protons but a different number of neutrons. Isotopes of an element have similar chemical properties but may differ in atomic mass due to their varying neutron count.
Isotope 225Ac: is used in radiation therapy of cancers. Isotope 227Ac: is used in neutron sources (Ac, Be). Also useful for hydrological study of seas and oceans.
It determines which element, which all have their own properties so yes. The mass number just determines the isotope which only affects their stability
Isotopes of an element have same number of protons and different number of neutrons. Hence similar in chemical properties and different in physical properties.
The daughter isotope is the result of the radioactive disintegration of the parent isotope. For example radium is a product of the uranium disintegration.The two isotopes have different chemical (different atomic numbers, etc.), physical and nuclear properties.
Physical or chemical properties are unrelated to the half-life of an isotope.