atomic number 50 (Meaning)
atomic number 50 (n)
a silvery malleable metallic element that resists corrosion; used in many alloys and to coat other metals to prevent corrosion; obtained chiefly from cassiterite where it occurs as tin oxide
Synonyms & Antonyms of atomic number 50
No Synonyms and anytonyms found
atomic number 50 Sentence Examples
- The atomic number 50 belongs to tin, a metal known for its malleability and corrosion resistance.
- With an atomic number of 50, tin has 50 protons and 50 electrons when in its neutral state.
- Chemists utilize the atomic number 50 to identify tin in various chemical reactions and compounds.
- The atomic number 50 indicates that tin has 50 neutrons in its most common isotope, accounting for over 95% of its natural occurrence.
- The presence of atomic number 50 in a substance confirms the presence of tin atoms.
- In nuclear physics, the atomic number 50 is crucial for understanding the properties of tin's isotopes and their behavior in nuclear reactions.
- By measuring the atomic number 50, scientists can determine the elemental composition of unknown substances.
- The atomic number 50 plays a significant role in determining the chemical bonding and reactivity of tin.
- The periodic table assigns atomic number 50 to tin, placing it in Group 14 as a post-transition metal.
- The atomic number 50 is a fundamental property that defines tin's unique characteristics and applications in various industries.
FAQs About the word atomic number 50
a silvery malleable metallic element that resists corrosion; used in many alloys and to coat other metals to prevent corrosion; obtained chiefly from cassiterit
No synonyms found.
No antonyms found.
The atomic number 50 belongs to tin, a metal known for its malleability and corrosion resistance.
With an atomic number of 50, tin has 50 protons and 50 electrons when in its neutral state.
Chemists utilize the atomic number 50 to identify tin in various chemical reactions and compounds.
The atomic number 50 indicates that tin has 50 neutrons in its most common isotope, accounting for over 95% of its natural occurrence.