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Metallic bonds explain the metallic properties of what and ductility?
4kings
Malleability means beaten into sheet and ductility means drawn into wires. These properties are due to the non- directional nature of the metallic bond. When any force is applied on the metal the position of kernels is changed without destroying the crystal. The metallic lattice gets deformed due to the slippage of the adjacent layers of the kernels from one part to another. It doesn't change the environment of the kernels. It simply moves the kernel from one lattice to another.
Wiki User
∙ 15y ago
Wiki User
∙ 13y agoMalleability means beaten into sheet and ductility means drawn into wires. These properties are due to the non- directional nature of the metallic bond. When any force is applied on the metal the position of kernels is changed without destroying the crystal. The metallic lattice gets deformed due to the slippage of the adjacent layers of the kernels from one part to another. It doesn't change the environment of the kernels. It simply moves the kernel from one lattice to another.
Wiki User
∙ 15y agoMetals bond in a specific way. When they bond, a lattice (think of a 3-D cube) of positive nuclei is formed with a "sea" of floating electrons moving in between the nuclei. This creates a VERY strong bond between all of the nuclei and electrons of the alloy. Because of this strength, a lot of energy (heat) is needed to break the bond, therefore they have high melting points.
Metallic bonds do not conduct heat very efficiently.
Wiki User
∙ 11y agometals mey be hard but before it is made hard it is very flexable.
Wiki User
∙ 12y agoBecause your mom somehow got into the chemistry biotch
Wiki User
∙ 15y agomalleability, conductivity, and ductility.
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What does the electron sea model of metallic bonds help you to explain?
Properties of metals as high boiling point, high melting point, malleability, ductility, electrical conductivity, thermal conductivity, lustre are explained by the theory of metallic bonds.
The electron sea model of the metallic bond helps to explain why metals are what?
Properties of metals as high boiling point, high melting point, malleability, ductility, electrical conductivity, thermal conductivity, lustre are explained by the theory of metallic bonds.
Using metallic bonds to explain differences in metals?
Conduct electricity, and usually also heat, readily. Metallic bonding also contributes to malleability.
How does metallic bonding explain the result at point c?
Sd
What do metallic bonds explain about the properties of gold?
Gold is a shiny, ductile material which is a good conductor of electricity and heat. All of these can be ascribed to its metallic bonds. What can't be explained so readily is its relative inertness and its color as metals are generally more reactive than gold and the majority are silvery white
What does the electron sea model of metallic bonds help you to explain?
Properties of metals as high boiling point, high melting point, malleability, ductility, electrical conductivity, thermal conductivity, lustre are explained by the theory of metallic bonds.
The electron sea model of the metallic bond helps to explain why metals are what?
Properties of metals as high boiling point, high melting point, malleability, ductility, electrical conductivity, thermal conductivity, lustre are explained by the theory of metallic bonds.
Using metallic bonds to explain differences in metals?
Conduct electricity, and usually also heat, readily. Metallic bonding also contributes to malleability.
What does the model of a sea of electrons help explain?
It helps explain metallic bonds.
How does metallic bonding explain the result at point c?
Sd
What do metallic bonds explain about the properties of gold?
Gold is a shiny, ductile material which is a good conductor of electricity and heat. All of these can be ascribed to its metallic bonds. What can't be explained so readily is its relative inertness and its color as metals are generally more reactive than gold and the majority are silvery white
Is a gold ring a good conductor of electricity what kind of bonds does gold have . How do these bonds explain golds properties?
It would be a good conductor. With bonds that explain gold's properties
How does the nature of the metallic bond explain the observation that most metals can be drawn into a wire?
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Please explain what plutonium looks like in its raw state.?
A fresh surface of plutonium is silvery, metallic.
How does the nature of the metallic bond explain the observation that most metals can be drawn into wire?
The metallic bonding within metals is caused by electrons that are interchangeable between metal atoms. This means the lines are blurred when it comes to where one atom stops and another starts. This seamless "sea" of electrons means metals are more ductile and less brittle, because of the "blending" of the atoms together. This is also the reason why metals are excellent conductors of heat and electricity.
How can you explain the fact that lanthanides are highly electropositive and metallic?
All have few outer energy level electrons which are loosely held by the atom.
How does metallic bonding explain why metals are malleable and ductile?
Delocalized electrons. They are the ones that move around, causing the metal to be ductile and malleable.
