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The valence electrons
What else can I help you with?
Which sap determines the properties of an element?
Sap is a liquid produced by plants, it has nothing to do with the properties of elements.
What determines the chemical properties of minerals?
The elements that compose it and the arrangement of its atoms
What have predictable chemical properties?
Elements in the periodic table have predictable chemical properties based on their position because they have the same number of valence electrons. This determines how they will react with other elements and molecules. The periodic table's structure helps scientists predict the behavior of elements based on their properties.
Which elements have similar properties on the periodic table?
Elements in the same group or column on the periodic table have similar properties. This is because they have the same number of valence electrons, which determines their chemical behavior. For example, all elements in Group 1 (such as lithium, sodium, potassium) share similar properties due to having one valence electron.
How are elements in rows similar on periodic table?
Elements in the same row on the periodic table have the same number of electron shells, which determines their chemical properties.
What determines the properties of mineral?
The elements that compose it and the arrangement of its atoms
Which sap determines the properties of an element?
Sap is a liquid produced by plants, it has nothing to do with the properties of elements.
What important subatomic part determines the elements chemical properties?
Electrons.
Does atomic no of elements determine their chemical properties?
It determines which element, which all have their own properties so yes. The mass number just determines the isotope which only affects their stability
What does elements in a column of the periodic table have?
Elements in same column have same number of outermost electrons. It determines chemical properties.
What determines the chemical properties of minerals?
The elements that compose it and the arrangement of its atoms
What have predictable chemical properties?
Elements in the periodic table have predictable chemical properties based on their position because they have the same number of valence electrons. This determines how they will react with other elements and molecules. The periodic table's structure helps scientists predict the behavior of elements based on their properties.
Why do different elements have different properties?
Different elements have different properties because of the arrangement of electrons in their atoms. The number of protons in the nucleus determines the element's identity, while the arrangement of electrons determines its properties. Factors like atomic structure, electron configuration, and bonding behavior contribute to the unique characteristics of each element.
How do you distinguish elements?
Elements are distinguished by their atomic number, which is the number of protons in the nucleus of an atom. The element's atomic number determines its chemical properties.
Are chemical properties of elements determined by neutrons?
No, chemical properties of elements are primarily determined by the number of protons in the nucleus, which determines the element's atomic number and thus its placement on the periodic table. Neutrons play a role in determining an element's stability and isotopic composition but do not significantly impact its chemical behavior.
The number of electrons determines what of an element?
The number of electrons in an element determines its chemical properties and behavior. Specifically, it influences how an element will bond with other elements to form compounds and determines its reactivity.
Which elements have similar properties on the periodic table?
Elements in the same group or column on the periodic table have similar properties. This is because they have the same number of valence electrons, which determines their chemical behavior. For example, all elements in Group 1 (such as lithium, sodium, potassium) share similar properties due to having one valence electron.
