What are the 10 examples of isobars?

The 10 examples of isobars are given below:

1. Carbon-14 (14C) and Nitrogen-14 (14N): Both have a mass number of 14 but different atomic numbers. Carbon-14 is a radioactive isotope used in radiocarbon dating, while Nitrogen-14 is the most common stable isotope of nitrogen.
2. Oxygen-14 (14O) and Silicon-28 (28Si): Oxygen-14 and Silicon-28 have different atomic numbers but the same mass number. Oxygen-14 is a short-lived isotope used in PET scans, while Silicon-28 is the most abundant isotope of silicon and is widely used in the semiconductor industry.
3. Sulfur-32 (32S) and Argon-32 (32Ar): Sulfur-32 and Argon-32 have the same mass number but different atomic numbers. Sulfur-32 is a stable isotope of sulfur used in studies related to sulfur metabolism, while Argon-32 is a stable isotope of argon used in various applications, such as determining the age of rocks using the potassium-argon dating method.
4. Calcium-40 (40Ca) and Potassium-40 (40K): Calcium-40 and Potassium-40 share a mass number but have different atomic numbers. Calcium-40 is the most abundant isotope of calcium and plays an essential role in biological processes, while Potassium-40 is a radioactive isotope used in geological dating methods.
5. Titanium-48 (48Ti) and Nickel-48 (48Ni): Titanium-48 and Nickel-48 have the same mass number but distinct atomic numbers. Titanium-48 is a stable isotope used in the production of alloys, while Nickel-48 is a radioactive isotope with applications in nuclear research and medicine.
6. Chlorine-37 (37Cl) and Potassium-37 (37K): Chlorine-37 and Potassium-37 have the same mass number but different atomic numbers. Chlorine-37 is a stable isotope of chlorine commonly used in isotope labeling studies, while Potassium-37 is a radioactive isotope used in nuclear medicine and research.
7. Scandium-45 (45Sc) and Titanium-45 (45Ti): Scandium-45 and Titanium-45 share a mass number but have different atomic numbers. Scandium-45 is a radioactive isotope used in research and medical applications, while Titanium-45 is a short-lived isotope with various nuclear applications.
8. Cobalt-60 (60Co) and Nickel-60 (60Ni): Cobalt-60 and Nickel-60 have the same mass number but distinct atomic numbers. Cobalt-60 is a radioactive isotope used in medical radiation therapy and industrial applications, while Nickel-60 is a radioactive isotope used in research and quality control applications.
9. Krypton-85 (85Kr) and Rubidium-85 (85Rb): Krypbbton-85 and Rubidium-85 share a mass number but have different atomic numbers. Krypton-85 is a radioactive isotope used in various applications, including dating ice cores and detecting leaks in sealed systems, while Rubidium-85 is a stable isotope used in research and medical imaging studies.
10. Yttrium-88 (88Y) and Strontium-88 (88Sr): Yttrium-88 and Strontium-88 have the same mass number but distinct atomic numbers. Yttrium-88 is a radioactive isotope used in medical imaging and cancer treatments, while Strontium-88 is a stable isotope used in geological studies and as a tracer in environmental research.

The 10 examples of isobar pairs with equal mass numbers but different atomic numbers highlight the diverse applications and properties of different isotopes.