Gold, silver, copper.
The element you are describing is likely a metal. Metals are typically solid at room temperature, have a high luster or shine, are good conductors of heat and electricity, and are malleable and ductile, meaning they can be hammered into thin sheets and drawn into wires, respectively.
An element with low electronegativity is likely to be a good conductor of electricity since it has a weaker ability to attract and hold on to electrons. This means that the element is less likely to form strong covalent bonds with other elements, making it more likely to easily share electrons and conduct electricity.
Bohrium is a synthetic element with very limited research, so its properties are not well understood. However, as a transactinide element, it is likely to be extremely rare and unstable, making it unsuitable for practical applications like conducting electricity.
Copper is the element that is most likely to conduct heat and electricity due to its high electrical conductivity and thermal conductivity properties.
No- hydrogen is a gas at room temperature.
The element you are referring to is likely gold. Gold is a shiny and malleable metal, but it is a poor conductor of electricity compared to other metals like copper or silver.
Iodine is likely to be a poor conductor of electricity and a brittle solid at room temperature. It is a non-metal with properties that make it a poor conductor of electricity and a brittle solid.
Co
Anything made out of metal is likely to be a good conductor.
The element you are describing is likely a metal. Metals are typically solid at room temperature, have a high luster or shine, are good conductors of heat and electricity, and are malleable and ductile, meaning they can be hammered into thin sheets and drawn into wires, respectively.
The element described is likely a metal. Metals are solid at room temperature, malleable (can be hammered into thin sheets), good conductors of electricity, and tend to react with oxygen to form oxides. Examples of such metals include copper, iron, and aluminum.
An element with low electronegativity is likely to be a good conductor of electricity since it has a weaker ability to attract and hold on to electrons. This means that the element is less likely to form strong covalent bonds with other elements, making it more likely to easily share electrons and conduct electricity.
Bohrium is a synthetic element with very limited research, so its properties are not well understood. However, as a transactinide element, it is likely to be extremely rare and unstable, making it unsuitable for practical applications like conducting electricity.
An element with low electronegativity is likely to be a good conductor of electricity, have a tendency to lose electrons in chemical reactions, and form positive ions easily. These elements are typically found on the left side of the periodic table.
Based on the properties you described, the unknown element is likely a metal. Metals are typically shiny and good conductors of electricity. You could also predict that it is likely malleable and ductile, as these are common properties of metals.
No it would be a group 18 element (helium, neon, argon, xenom, krypton or radon). These are unreactive, gaseous non-metals, which don't conduct heat or electricity at all well.
Well, let me think. Element X does not conduct electricity well, so it must be more stable, with a strong grip on it's outer shells. If I remember correctly, that would put it closer to the right side. It breaks when hit with a hammer meaning that it's not a gas, for one, and also that it does not form strong bonds with itself. In my mind that places it near the bottom right of the periodic table, right next to the noble gasses. My guess goes to it being a metalloid, probably Tellurium. As far a Z goes, it could be a wide range of things, if we only know that it is a good conductor. I'm going to guess it's in the range of "transition elements"