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Is it true there are the same numbers of atoms in the products as there are in there reactants?
Wiki User
∙ 9y ago
Atoms of the same element contain the same amount of electrons. If the atom is ionized by losing or gaining electrons, then it becomes an ion, having a positive or negative charge. The number of electrons in the neutral atom differs from the number of electrons in the ion.
Wiki User
∙ 11y ago
Wiki User
∙ 12y agoNo, this is certainly NOT true for the neutronnumber.
It is however true that the number of protons of an element is the same for all neutral atoms of that element.
Wiki User
∙ 13y agoOne mole is 6.02 ×1023 of anything. So a mole of shoes is 6.02 ×1023 shoes, a mole of cans is 6.02 ×1023 cans, and a mole of atoms is 6.02 ×1023 atoms. So yes, one mole of atoms of one element is the same number of atoms as one mole of atoms of a different element.
Wiki User
∙ 13y agoNo, certainly NOT. Each element has its own mass!
Wiki User
∙ 11y agoNo. Atoms are different elements are different as they differ in the number of protons, electrons and neutrons.
Wiki User
∙ 8y agoNo. I mole of any substance contains the same number of particles as one mole of any substance, but the weights are different, because the particles weigh different amounts.
Wiki User
∙ 16y agotree is cheap in Indy Bois
Wiki User
∙ 15y agoNO YES WHY NOT JK LOL TIKI WIKI
Wiki User
∙ 9y agono
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The atoms in the products are what the atoms in the reactants?
Yes, the atoms on either side of the arrow have to be the same. Sometimes to achieve this you must balance the equation with the amount of atoms. 2Cu(s)+1/2O2(g)--->2CuO(s) Where the numbers in front of the atoms tell you how many there are.
A equation is balanced when?
Same number of each kind of atoms appears in the reactants and in the products.
In a chemical reaction the number of atoms of reactants and products must?
I know that this probably isn't the answer that you were looking for but its a start the answer to this question is one of four different answers choose the one that you think is right. A) The same as the number of atoms in the reactants B) Less than the number of atoms in the reactants C) Greater than the number of atoms in the reactants D) The same as the number of molecules in the reactants
How many atoms of hydrogen appear on each side of the equation?
The number of atoms in the reactants should equal the number of atoms in the products because the weight should be equal according to the Law of Conservation of Mass.
When is a chemical equation said to be balanced?
When the numbers of each type of atom in the reactants are the same as that in the products
The atoms in the products are what the atoms in the reactants?
Yes, the atoms on either side of the arrow have to be the same. Sometimes to achieve this you must balance the equation with the amount of atoms. 2Cu(s)+1/2O2(g)--->2CuO(s) Where the numbers in front of the atoms tell you how many there are.
How are reactant atoms and molecules similar to their product atoms and molecules?
The numbers of atoms with the same atomic number are the same in both reactants and products in any chemical reaction.
What must be true about the properties of the reactants and the properties of the products in a chemical reaction?
The reactants and the products must contain the same numbers of the same types of atoms, that is, atoms with the same atomic number, and either the products must contain at least one type of chemical bond distinct from any chemical bond in the reactants or the reactants must contain at least one type of chemical bond not found in the products.
A equation is balanced when?
Same number of each kind of atoms appears in the reactants and in the products.
What does conservation of mass have to do with an equation?
In a chemical reaction, which is what a chemical equation represents, the numbers of atoms of each element are the same in the reactants and the products. This is because, in a chemical reaction, the atoms in the reactants are not changed, they are simply rearranged into new compounds in the products. Therefore, matter is neither created nor destroyed. This is why it's important to balance a chemical equation properly so that the numbers of atoms of each element is equal on both sides.
In a chemical reaction the number of atoms of reactants and products must?
I know that this probably isn't the answer that you were looking for but its a start the answer to this question is one of four different answers choose the one that you think is right. A) The same as the number of atoms in the reactants B) Less than the number of atoms in the reactants C) Greater than the number of atoms in the reactants D) The same as the number of molecules in the reactants
In a reverse reactionproducts are formed from reactants and reactants are formed from products When they yield the same amount?
Of material. They will need to have the same amount of atoms present for this process to work out correctly.
Are atoms in a chemical change irregular?
No, the atoms in a chemical change are normal atoms of the element they represent. The atoms in the reactants are exactly the same atoms in the products, just arranged in a different way.
How many atoms of hydrogen appear on each side of the equation?
The number of atoms in the reactants should equal the number of atoms in the products because the weight should be equal according to the Law of Conservation of Mass.
When is a chemical equation said to be balanced?
When the numbers of each type of atom in the reactants are the same as that in the products
What goes into a reaction and what comes out of a reaction?
Reactantd go into a reaction and the products come out of a reaction. For want of a better expression the atoms in the reactants play 'musical chairs' to form the products. e.g. Hydrochloric Acid and potassium hydroxide are the reactants and potassium chloride and water are the products. HCl(aq) + KOH(aq) = KCl(aq) + H2O(l) Notice how the atoms all move place.
What happens to the reactants in a chemical reaction?
Put casually, they react with each other to form products. e.g. Reactants A & B form products C & D A + B = C + D
