electronegative atom
电负性原子
electronegative element
电负性元素
electronegative charge
电负性电荷
electronegative bond
电负性键
electronegative species
电负性物种
electronegative difference
电负性差异
electronegative behavior
电负性行为
electronegative character
电负性特征
electronegative region
电负性区域
electronegative property
电负性性质
fluorine is the most electronegative element on the periodic table.
氟是周期表上电负性最强的元素。
electronegative atoms tend to attract electrons more strongly.
电负性原子往往更强烈地吸引电子。
the electronegative nature of oxygen makes it a key player in chemical reactions.
氧的电负性特性使其在化学反应中扮演重要角色。
in a covalent bond, the more electronegative atom will hold the electrons closer.
在共价键中,电负性更强的原子会将电子吸引得更近。
electronegative elements often form polar bonds with less electronegative elements.
电负性元素通常与电负性较低的元素形成极性键。
the electronegative character of chlorine influences its reactivity.
氯的电负性特征影响其反应性。
when comparing electronegative values, fluorine is always at the top.
在比较电负性值时,氟总是位于最上方。
understanding electronegative trends helps predict molecular behavior.
理解电负性趋势有助于预测分子行为。
electronegative atoms can create dipole moments in molecules.
电负性原子可以在分子中产生偶极矩。
the electronegative differences between elements determine bond types.
元素之间的电负性差异决定了键的类型。
electronegative atom
电负性原子
electronegative element
电负性元素
electronegative charge
电负性电荷
electronegative bond
电负性键
electronegative species
电负性物种
electronegative difference
电负性差异
electronegative behavior
电负性行为
electronegative character
电负性特征
electronegative region
电负性区域
electronegative property
电负性性质
fluorine is the most electronegative element on the periodic table.
氟是周期表上电负性最强的元素。
electronegative atoms tend to attract electrons more strongly.
电负性原子往往更强烈地吸引电子。
the electronegative nature of oxygen makes it a key player in chemical reactions.
氧的电负性特性使其在化学反应中扮演重要角色。
in a covalent bond, the more electronegative atom will hold the electrons closer.
在共价键中,电负性更强的原子会将电子吸引得更近。
electronegative elements often form polar bonds with less electronegative elements.
电负性元素通常与电负性较低的元素形成极性键。
the electronegative character of chlorine influences its reactivity.
氯的电负性特征影响其反应性。
when comparing electronegative values, fluorine is always at the top.
在比较电负性值时,氟总是位于最上方。
understanding electronegative trends helps predict molecular behavior.
理解电负性趋势有助于预测分子行为。
electronegative atoms can create dipole moments in molecules.
电负性原子可以在分子中产生偶极矩。
the electronegative differences between elements determine bond types.
元素之间的电负性差异决定了键的类型。
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