Matter can not be created nor distroyed.For example, you have water, when you freeze it it's an ice cube and it wasn't created. It was just turned into another form. An ice cube melted down to liquid wasn't destroyed but simply turned into a different form also.
The law of conservation of matter states that matter can not be created nor destroyed; it is conserved in its same properties.One example of this occurence is when gas is burned and no longer in its liquid form. Although, the gas is actually in a gaseous state; with the same amount of matter.
Matter can not be created or destroyed. Gasoline when burnt is changed mostly to another form with the same mass, but a very tiny part IS turned to energy- a microgram per gallon or something like that. Same with rotting wood or rusting metals- a little bit of mass is turned into energy.
The law of conservation of matter is of course stated as energy that is neither created or destroyed during a chemical reaction and can change in form. The atoms that are present at the beginning of a reaction are rearranged to form new molecules. This law can be applied to a daily situation by like for an example lets say you are burning coal in a furnace for heat and piping it to a warm building. Obviously in the end result, the heat would escape during this process.
You all (four) stated the law correctly. However, you are unable to apply it to a situation. According to this matter is conserved during the chemical and physical processes. You need to pick an example of a physical and chemical process and explain.
the law of conservation states that matter is never created or destroyed .An example of this is when water is evaporated and is stored as hydrogen in an cloud and then it is combined with oxygen and made into water again.
It states that matter cannot be created or destroyed,only transfered. Ex:You cannot react copper and oxygen together and expect to get calcium back. Only those reactants that went into the reaction will come out. They will have been changed during the reaction, but you will still have copper and oxygen in your end results.
The law conservation of matter is the fundemental propertery which states that matter cannot be created nor destroyed. For example, melting of ice. The ice will turn into water but the flame will not destroyed the matter in which the ice is occupying. All that will happen is that it will be converted back.
The law of conservation of matter states that matter can neither be created nir destroyed. An example of the law of conservation of matter is burning wood. Although, once burned, the wood may turn into ashes, the wood has not been neither created nor destroyed. The fact that the ash appeared is an example of a chemical reaction.
sierra rackley: your response was incomplete. It was like you started to say something but you didnt finish your statement. I wonder what you were going to say;elaborate please.
Law of conservation of matter states 'Matter neither be created nor destroyed' This can be applied to any physical or chemical processes. Now, I want you apply this information and do more reading before you respond again.
An example of the law of conservation of matter is shredding a piece of paper. One make think that the shredding of the paper has caused some of the matter that comprises the paperto be destoyed. If one was to take the mass of the paper before and after the shredding has taken place, it would be the same. This demonstration would be a physical process that displays the law of conservation of matter.
The Law of Conservation of Matter states that matter can neither be created nor desroyed. Ex. When water is boiled, it evaporates. If the whole pot of water isn't evaporated, it gives some the idea that because of the intense heat, some of it is desroyed. It has just chagned from a liquid to gas and is in the air.
An example of the law of conservation of matter is say you are using a gas stove to cook dinner, where the stove burns natural gas. Once the stove has been lit, it has caused matter to supply the activation energy to start a reaction as in (methane) involving oxygen to release in the air. This then leads the chemical bonds into breaking and reforming the products produced which are carbon dioxide, water vapor, light and heat from the flame. This is a chemical process to represent the law of conservation of matter
Burn something completely to ash, it appears as if matter was lost, the burnt item was destroyed, but if you collected the gases expelled and weighed them, the weight of the gas and ash produced would equal the weight of the oxygen consumed in the burning/oxidation, so the matter wasn't destroyed it merely changed to a different form
The law of conservation of matter states that matter can neither be created nor destroyed... an example of law of conservation of matter is when you are burning a piece of paper...even though the paper is not in its original form it still has the same amount of matter before it was burned...
Basically matter can neither be created nor destroyed. ex burning a sheet of paper. when you burn the sheet of paper and it turns to ashes its still the same matter before you burned it
The law of conservation of matter states that matter can not be created nor destroyed, it is conserved in it's original properties. One example of this occurence is when ice is melted it's no longer a solid form. However, the ice is now in a liquid state it still has the same amount of matter.
It state that matter can neither be created nor destroy but can change from one form to another.I clear example is whenever you throw a solid waste into the environment it has the same consequence on us.meaning gabbage i in gabbage out.frm prince amoah
Matter can not be created nor distroyed.For example, you have water, when you freeze it it's an ice cube and it wasn't created. It was just turned into another form. An ice cube melted down to liquid wasn't destroyed but simply turned into a different form also.
ReplyDeleteThe law of conservation of matter states that matter can not be created nor destroyed; it is conserved in its same properties.One example of this occurence is when gas is burned and no longer in its liquid form. Although, the gas is actually in a gaseous state; with the same amount of matter.
ReplyDeleteMatter can not be created or destroyed. Gasoline when burnt is changed mostly to another form with the same mass, but a very tiny part IS turned to energy- a microgram per gallon or something like that. Same with rotting wood or rusting metals- a little bit of mass is turned into energy.
ReplyDeleteThe law of conservation of matter is of course stated as energy that is neither created or destroyed during a chemical reaction and can change in form. The atoms that are present at the beginning of a reaction are rearranged to form new molecules. This law can be applied to a daily situation by like for an example lets say you are burning coal in a furnace for heat and piping it to a warm building. Obviously in the end result, the heat would escape during this process.
ReplyDeleteYou all (four) stated the law correctly. However, you are unable to apply it to a situation. According to this matter is conserved during the chemical and physical processes. You need to pick an example of a physical and chemical process and explain.
ReplyDeletethe law of conservation states that matter is never created or destroyed .An example of this is when water is evaporated and is stored as hydrogen in an cloud and then it is combined with oxygen and made into water again.
ReplyDeleteIt states that matter cannot be created or destroyed,only transfered. Ex:You cannot react copper and oxygen together and expect to get calcium back. Only those reactants that went into the reaction will come out. They will have been changed during the reaction, but you will still have copper and oxygen in your end results.
ReplyDeleteThe law conservation of matter is the fundemental propertery which states that matter cannot be created nor destroyed. For example, melting of ice. The ice will turn into water but the flame will not destroyed the matter in which the ice is occupying. All that will happen is that it will be converted back.
ReplyDeleteThe law of conservation of matter states that matter can neither be created nir destroyed. An example of the law of conservation of matter is burning wood. Although, once burned, the wood may turn into ashes, the wood has not been neither created nor destroyed. The fact that the ash appeared is an example of a chemical reaction.
ReplyDeletesierra rackley:
ReplyDeleteyour response was incomplete. It was like you started to say something but you didnt finish your statement. I wonder what you were going to say;elaborate please.
Law of conservation of matter states 'Matter neither be created nor destroyed' This can be applied to any physical or chemical processes. Now, I want you apply this information and do more reading before you respond again.
ReplyDeleteAn example of the law of conservation of matter is shredding a piece of paper. One make think that the shredding of the paper has caused some of the matter that comprises the paperto be destoyed. If one was to take the mass of the paper before and after the shredding has taken place, it would be the same. This demonstration would be a physical process that displays the law of conservation of matter.
ReplyDeleteThe Law of Conservation of Matter states that matter can neither be created nor desroyed.
ReplyDeleteEx. When water is boiled, it evaporates. If the whole pot of water isn't evaporated, it gives some the idea that because of the intense heat, some of it is desroyed. It has just chagned from a liquid to gas and is in the air.
An example of the law of conservation of matter is say you are using a gas stove to cook dinner, where the stove burns natural gas. Once the stove has been lit, it has caused matter to supply the activation energy to start a reaction as in (methane) involving oxygen to release in the air. This then leads the chemical bonds into breaking and reforming the products produced which are carbon dioxide, water vapor, light and heat from the flame. This is a chemical process to represent the law of conservation of matter
ReplyDeleteBurn something completely to ash, it appears as if matter was lost, the burnt item was destroyed, but if you collected the gases expelled and weighed them, the weight of the gas and ash produced would equal the weight of the oxygen consumed in the burning/oxidation, so the matter wasn't destroyed it merely changed to a different form
ReplyDeleteThe law of conservation of matter states that matter can neither be created nor destroyed... an example of law of conservation of matter is when you are burning a piece of paper...even though the paper is not in its original form it still has the same amount of matter before it was burned...
ReplyDeleteBasically matter can neither be created nor destroyed. ex burning a sheet of paper. when you burn the sheet of paper and it turns to ashes its still the same matter before you burned it
ReplyDeleteThe law of conservation of matter states that matter can not be created nor destroyed, it is conserved in it's original properties. One example of this occurence is when ice is melted it's no longer a solid form. However, the ice is now in a liquid state it still has the same amount of matter.
ReplyDeleteIt state that matter can neither be created nor destroy but can change from one form to another.I clear example is whenever you throw a solid waste into the environment it has the same consequence on us.meaning gabbage i in gabbage out.frm prince amoah
ReplyDelete