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If, by "equal groups", you mean groups of equal things, you get how many in all [the total number] by simply addingthem all together. Sometimes adding is called summation.If, by "equal groups", you mean equal-sized groups of things, you get how many in all by multiplying the number of groups by the number of things in each member group.The number of things in a group is also called its cardinality. Loosely, cardinality is the size of the group, or the number of elements ["things"] in the group.
The definition of equal groups are having the same number of units in each group. An example is how would someone put 15 items in 3 equal groups. Each group would have 5 items.
When you have finished dividing, the divisor (the number you divided BY) and thequotient (the answer you got) together, are both of those numbers, either way.Either of them can be the number of equal groups, and then the other one is thenumber in each group.
To put 120 in equal groups, you can divide 120 by a chosen number of groups to determine how many items will be in each group. For example, if you want to create 10 equal groups, you would divide 120 by 10, resulting in 12 items per group. Similarly, you can choose other divisors, such as 5 or 15, to find different group sizes, ensuring each group contains the same number of items.
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If, by "equal groups", you mean groups of equal things, you get how many in all [the total number] by simply addingthem all together. Sometimes adding is called summation.If, by "equal groups", you mean equal-sized groups of things, you get how many in all by multiplying the number of groups by the number of things in each member group.The number of things in a group is also called its cardinality. Loosely, cardinality is the size of the group, or the number of elements ["things"] in the group.
It is the number in each group multiplied by the number of groups.
The definition of equal groups are having the same number of units in each group. An example is how would someone put 15 items in 3 equal groups. Each group would have 5 items.
When you have finished dividing, the divisor (the number you divided BY) and thequotient (the answer you got) together, are both of those numbers, either way.Either of them can be the number of equal groups, and then the other one is thenumber in each group.
To put 120 in equal groups, you can divide 120 by a chosen number of groups to determine how many items will be in each group. For example, if you want to create 10 equal groups, you would divide 120 by 10, resulting in 12 items per group. Similarly, you can choose other divisors, such as 5 or 15, to find different group sizes, ensuring each group contains the same number of items.
Combining equal groups together is possible through the concept of multiplication. By multiplying the number of groups with the number of items in each group, you can determine the total number of items. For instance, if you have 3 groups with 4 items in each group, you can put them together by multiplying 3 x 4 to get a total of 12 items.
There are three possibilities:-- 7 equal groups, with 3 in each group-- 3 equal groups, with 7 in each group-- 21 equal groups, with 1 in each group
For groups 1-2 the number of valence electrons is equal to the number of the group.For groups 13-18 the number of valence electrons is equal to the number of the group, but with numbering starting up from 3 (13), 4 (14) , etc. (transition metals excluded).
Oh, dude, you're hitting me with some math here. So, like, 145 divided into equal groups means you're breaking up 145 into smaller, equal parts. If you divide 145 by, say, 5, each group would have 29 in it. It's like slicing up a pizza, but with numbers.
A repeated-group division with an unknown multiplier involves dividing a total quantity into equal groups, where the number of groups or the size of each group is not known initially. This type of problem often requires the use of algebra to determine the unknown, forming equations based on the relationship between the total, the number of groups, and the size of each group. It can be represented mathematically as ( \text{Total} = \text{Number of Groups} \times \text{Size of Each Group} ). Solving for the unknown multiplier often involves identifying patterns or applying division and multiplication concepts.
The periodic table of Mendeleev has 18 groups.