When a metal (such as copper) is heated, itexpands. Explain what happens to the metalparticles as the solid metal expands.

As you are heating a piece of metal, you notice that its size increases as its temperature increases. Which statement best explains the rationale for this observation?QUESTION 4ANSWERa.Heating increases the mass of the metal, leading to larger size.b.Heating causes the metal to become denser, leading to an increase in size.c.Heating causes the metal atoms to vibrate with reduced amplitude, resulting in expansion of the metal.d.Heating causes the metal's particles to move faster and further apart, resulting in expansion.

What happens to air particles when they are heated? 2 marksParticles move faster and expand Particles move faster and become closer together. Particles move slower and the air expands  Particles move faster and become further apart

Match the correct explanation to the property of pure metals it explains. High densityHigh melting pointMalleableThermal conductivitySolid at room temperaturePossible AnswersWhen the metal is in the solid state the particles are tightly packed together and held in a fixed positions.The layers of metal atoms can slide over each other when a force is applied.A lot of energy is needed to overcome the strong electrostatic attraction between the metal ion and the delocalised electron.This is due to the high boiling and melting points.The delocalised electrons are free to move and can transferenergy.A lot of energy is needed to overcome the weak electrostatic attraction between the metal atom and the delocalised electron.The delocalised electrons are free to move and can carry anelectric current.I DON'T KNOWRESETSUBMIT ANSWER

Match the correct explanation to the property of pure metals it explains. High melting pointMalleableHigh densitySolid at room temperatureThermal conductivityPossible AnswersThe delocalised electrons are free to move and can carry anelectric current.When the metal is in the solid state the particles are tightly packed together and held in a fixed positions.A lot of energy is needed to overcome the weak electrostatic attraction between the metal atom and the delocalised electron.The delocalised electrons are free to move and can transferenergy.The layers of metal atoms can slide over each other when a force is applied.This is due to the high boiling and melting points.A lot of energy is needed to overcome the strong electrostatic attraction between the metal ion and the delocalised electron.I DON'T KNOWRESETSUBMIT ANSWER

Metallic bonding always occurs between:Noble gasesMetal atomsNon-metal atomsMetal and non-metal atoms2A metallic bond is the electrostatic attraction between:Positive ions and delocalised electronsNegative ions and delocalised electronsElectrons and delocalised negative ionsElectrons and delocalised positive ions3Which of these is a property of metals?Poor conductors of electricityLow boiling pointsMalleableLow melting points4Which of the following statements best describes why metals are good conductors of heat?Metallic bonds are very strongLayers of metal atoms can slide past one another easilyMetals have high melting pointsThe delocalised electrons can carry thermal energy through the substance5Which of the following is a metal alloy?AluminiumCopperSteelIron6Metal alloys are generally harder and stronger than the individual elements they are made from. This is because the atoms of each element are of a different size and therefore:Disrupt the regular layers of ions, making them less malleableIncrease the size of the latticeLead to an increase in boiling pointLead to an decrease in boiling point