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Question
refresh:
complete the below statements using the following words:
transferred
conservation
destroyed
cannot
balanced
closed system
atoms
same
products
the law of ________ of mass states that matter ______ be created nor ______ only ______ from state to state (phase to phase). a ______ chemical equation proves the law of conservation of mass as it shows the ______ amount of ______ of an element in the reactants are also in the ______. it is best to observe the law of conservation of mass in a ________ as it will ensure the mass is the same at the beginning and end of a chemical reaction
To solve this fill - in - the - blank problem related to the law of conservation of mass, we analyze each blank:
Step 1: First blank (law name)
The law that deals with the mass of matter in a reaction is the law of conservation of mass. This law is a fundamental concept in chemistry (a sub - field of Natural Science) that describes the behavior of matter during physical and chemical changes.
Step 2: Second blank (creation of matter)
According to the law of conservation of mass, matter cannot be created. This is a key principle of the law, stating that matter is neither created nor destroyed in an isolated system.
Step 3: Third blank (destruction of matter)
Matter also cannot be destroyed (this is part of the law of conservation of mass: matter can neither be created nor destroyed).
Step 4: Fourth blank (change of matter)
Matter only changes (or is transferred/transformed) from one state to another (for example, from solid to liquid to gas in physical changes, or from reactants to products in chemical changes).
Step 5: Fifth blank (chemical equation type)
A balanced chemical equation proves the law of conservation of mass. In a balanced chemical equation, the number of atoms of each element on the reactant side is equal to the number of atoms of that element on the product side.
Step 6: Sixth blank (mass relationship)
A balanced chemical equation shows the same amount of a particular quantity (mass, in terms of the law of conservation of mass) of an element.
Step 7: Seventh blank (particles in reaction)
It shows the same amount of atoms of an element. Atoms are the basic building blocks of matter, and in a chemical reaction, atoms are rearranged, not created or destroyed.
Step 8: Eighth blank (location of atoms)
The atoms of an element in the reactants are also in the products. This is because in a chemical reaction, reactants are converted into products, and the atoms are just rearranged.
Step 9: Ninth blank (system type)
It is best to observe the law of conservation of mass in a closed system. In a closed system, matter cannot enter or leave, so the mass before and after a reaction remains constant.
So the filled - in statement is:
The law of \(\boldsymbol{\text{conservation}}\) of mass states that matter \(\boldsymbol{\text{cannot}}\) be created nor \(\boldsymbol{\text{destroyed}}\), only \(\boldsymbol{\text{changed}}\) from state to state (phase to phase). A \(\boldsymbol{\text{balanced}}\) chemical equation proves the law of conservation of mass as it shows the \(\boldsymbol{\text{same}}\) amount of \(\boldsymbol{\text{atoms}}\) of an element in the reactants are also in the \(\boldsymbol{\text{products}}\). It is best to observe the law of conservation of mass in a \(\boldsymbol{\text{closed system}}\) as it will ensure the mass is the same at the beginning and end of a chemical reaction.
(Note: There was a small typo in the original problem statement, but we filled in the blanks based on the correct scientific concepts related to the law of conservation of mass.)
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To solve this fill - in - the - blank problem related to the law of conservation of mass, we analyze each blank:
Step 1: First blank (law name)
The law that deals with the mass of matter in a reaction is the law of conservation of mass. This law is a fundamental concept in chemistry (a sub - field of Natural Science) that describes the behavior of matter during physical and chemical changes.
Step 2: Second blank (creation of matter)
According to the law of conservation of mass, matter cannot be created. This is a key principle of the law, stating that matter is neither created nor destroyed in an isolated system.
Step 3: Third blank (destruction of matter)
Matter also cannot be destroyed (this is part of the law of conservation of mass: matter can neither be created nor destroyed).
Step 4: Fourth blank (change of matter)
Matter only changes (or is transferred/transformed) from one state to another (for example, from solid to liquid to gas in physical changes, or from reactants to products in chemical changes).
Step 5: Fifth blank (chemical equation type)
A balanced chemical equation proves the law of conservation of mass. In a balanced chemical equation, the number of atoms of each element on the reactant side is equal to the number of atoms of that element on the product side.
Step 6: Sixth blank (mass relationship)
A balanced chemical equation shows the same amount of a particular quantity (mass, in terms of the law of conservation of mass) of an element.
Step 7: Seventh blank (particles in reaction)
It shows the same amount of atoms of an element. Atoms are the basic building blocks of matter, and in a chemical reaction, atoms are rearranged, not created or destroyed.
Step 8: Eighth blank (location of atoms)
The atoms of an element in the reactants are also in the products. This is because in a chemical reaction, reactants are converted into products, and the atoms are just rearranged.
Step 9: Ninth blank (system type)
It is best to observe the law of conservation of mass in a closed system. In a closed system, matter cannot enter or leave, so the mass before and after a reaction remains constant.
So the filled - in statement is:
The law of \(\boldsymbol{\text{conservation}}\) of mass states that matter \(\boldsymbol{\text{cannot}}\) be created nor \(\boldsymbol{\text{destroyed}}\), only \(\boldsymbol{\text{changed}}\) from state to state (phase to phase). A \(\boldsymbol{\text{balanced}}\) chemical equation proves the law of conservation of mass as it shows the \(\boldsymbol{\text{same}}\) amount of \(\boldsymbol{\text{atoms}}\) of an element in the reactants are also in the \(\boldsymbol{\text{products}}\). It is best to observe the law of conservation of mass in a \(\boldsymbol{\text{closed system}}\) as it will ensure the mass is the same at the beginning and end of a chemical reaction.
(Note: There was a small typo in the original problem statement, but we filled in the blanks based on the correct scientific concepts related to the law of conservation of mass.)