partial quotient means it breaks dividing numbers down just like partial product;)
It is easier to multiply
Partial sums is actually use for addition while partial products is used for multiplication. With partial sums, numbers above nine are added together in the tens, hundreds, etc. columns first. Individual sums are then added together for the final sum.
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It's easier to multiply
partial quotient means it breaks dividing numbers down just like partial product;)
5630 is a single number and single numbers do not have partial products.
To divide decimals the partial sums method requires that numbers are separated into individual portions. The separated numbers are then solved in long division until eliminated.
The assertion in the question is simply not true.
It is easier to multiply
Partial sums is actually use for addition while partial products is used for multiplication. With partial sums, numbers above nine are added together in the tens, hundreds, etc. columns first. Individual sums are then added together for the final sum.
Here is a partial list:Each item on the partial list can be written as [ 1.6xxxxxxxxxxxxxxxxxxxxxxxxxxxx times 10xx ],where each 'x' is any digit you want, 0 to 9.
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Partial products of 87 times 65 would be 80 x 60 and 80 x 5 and 7 x 60 and 7 x 5. Partial products allow for the multiplication of whole numbers.
It's easier to multiply
The short answer is, infinite. With just integers, There are 498 numbers that can round up to 500, and 498 that can round down. If we include partial numbers, there are infinite, since the numbers can get infinitesimally small.
Well, when we break down the number 237 into partial quotients, we are essentially finding smaller numbers that can be multiplied to get closer to the total. So, for example, you could start by dividing 237 by 100 to get 2 as a partial quotient, then continue dividing the remainder to find more partial quotients until you reach the final answer. Just take your time, enjoy the process, and remember that there's no rush in finding the beauty in these numbers.