Most molecular substances do not conduct electricity since the ions don't dissociate very well with molecular substances. However, most ionic substances do conduct electricity very well due to their ability to dissociate very well in water.
A battery snap in electronics is what you connect a battery to. The battery snap then sends the electricity in the battery to the rest of the circuit. It's that simple.
The easiest way is by use of a microphone. Another way is with an electric guitar pickup.
In a synthesis reaction two or more simple substances combine to form a more complex substance. Two or more reactants yielding one product Ex) H2 + 1/2O2 --> H2O Decomposition: a complex substance breaks down into simple substances. Ex) 2H2O --> 2H2 + O2
well its simple whoever asked this question is thick. It gives charge because a battery is the source of electricity therefore firing up the current and electron.
Tourist and student come forewarned, Milan, they're told, is nothing more Than Brummagen half-latinized, Its loud display of wealth a bore, Aping America in outsized Automobiles and skyscrapers: Ethical conduct quite suborned By latterday financial capers. Excerpt from 'Milan' by Richard Church
For something to conduct electricity, it must have two properties: 1. Free moving particles. 2. Charged particles. Simple covalent molecules have neither properties and so it cannot conduct electricity.
The properties of simple covalent substances such as chlorine, oxygen and water are that it has low melting and boiling points. This is because the weak intermolecular forces break down easily. Secondly, another property is the simple covalent substances are non-conductive therefore the substances with a simple molecular structure do not conduct electricity. This is because they do not have any free electrons or an overall electric charge.
Yes, molecular solids have relatively low melting points.
Such compounds can have either a giant or a simple molecular structure. Cellulose is an example of a material with a giant structure, and carbon monoxide has a very simple one.
Metals conduct electricity as a result of the way they bond to form alloys. Their configuration is like positive ions in an "electron sea", which means that the electricity can travel easily through the electrons.
one simple answer is that whan NaCl is solid the ions Na+ and Cl- are not free to move and conduct the electricity. when in a aqeous solution and as a liquid the ions are free to move and the electricity can be conducted. hope this helps
because they have many free electrons that can carry the electrical current
Simple molecular structures have very strong covalent bonds, but the intermolecular forces are very weak. This means they can be parted easily, which means they are not very hard or strong and can have thus a very low melting point. This means that at room temperature, they are usually gases or liquids.Since they have no ions either, they cannot conduct electricity very well. Simple molecular solids such as ice, tends to melt easily and dissolve in organic solvents.
Conductor of electricity is sort of the definition of a magnet. Magnets conduct electrical fields; it is what makes them magnets, in very simple terms.
Sodium, magnesium and aluminum are all good conductors of electricity. Silicon is a semiconductor.Sodium, magnesium and aluminum all have metallic structures, which accounts for their electrical conductivity and relatively high melting and boiling points.The nuclei of the atoms gets more positively charged.Melting and boiling points rise across the three metalsSilicon has the highest melting point.Phosphorus, sulphur, chlorine and argon are simple molecular substances with only van der Waals attractions between the molecules. Their melting or boiling points will be lower than those of the first four members of the period which have giant structures.These four substance with simple molecular structures also do not conduct electricity.
Ionic substances consist of cations with high effective nuclear charge (positively charged ions) and anions with low effective nuclear charges (negatively charged ions), this causes all the electrons in the sigma bond to be pulled towards the cation. This results in a negatively charged cation and a positively charged anion. Once melted these ions are free to move about. As electricity is defined as a flow of charge, and these charged ions are free to flow about, the resultant melted substance will conduct electricity. SIMPLE, when solid, ionic substances are held together very tightly, so electrons can not move. BUT, when as molten/liquid/aqueaus the bonds slacks and the electrons are FREE to move!! Therefore conducting electricity... ^_^ "hope this helps!!!"
simple molecular compounds have weak forces of atraction.