Simplify $5 over 6 cross times 2 over 3$

The fractions can also be simplified before multiplying by factoring out common factors in the numerator and denominator.

Simplify $3 over 5 cross times 3 over 8$

The factions can also be simplified first before multiplying by factoring out common factors in the numerator and the denominator.

Simplify $3 over 5 cross times 3 over 8$

The factions can also be simplified first before multiplying by factoring out common factors in the numerator and the denominator.

$3 over 8 cross times 2 over 3$ =

Another approach to the question could be that first we can cut both the 3s, i.e., the 3 in the numerator of the first fraction and the 3 in the denominator of the second fraction. Also, we can reduce the 8 in the denominator of the first fraction and the 2 in the numerator in the second fraction. The 8 gets reduced to 4.
Hence, $3 over 8 cross times 2 over 3 equals 1 fourth$
Thus, option (a) is the correct option.

$3 over 8 cross times 2 over 3$ =

$1 half cross times 4 over 5$ =

In the question, another approach could be that we can cut the 2 in the denominator of the first fraction by the 4 in the numerator of the second fraction and reduce the 4 to 2. Then, we get $1 over 1 cross times 2 over 5 equals 2 over 5$
Thus, we get option (c) as the correct option.

$1 half cross times 4 over 5$ =

George has $1 third$ pan of brownies. He eats $1 fourth$ of them. The fraction of brownies George ate. is

Multiply $2 over 6 cross times 3 over 5$ .

In the question, another approach could be that we can reduce the first fraction $2 over 6 equals 1 third$
Then we get, $1 third cross times 3 over 5$ . Here, the 3 in the denominator of the first fraction gets cut by the 3 in the numerator of the second fraction. Hence, we get the product as $1 fifth$ .
Thus, we get option (a) as the correct option.

Multiply $2 over 6 cross times 3 over 5$ .

Multiply $1 fifth cross times 2 over 10$ .

In the question, another approach could be that we can reduce $2 over 10$ into $1 fifth$ by dividing both the numerator and denominator by 2 which is the HCF of both the numerator and the denominator. Then we simply get $1 fifth cross times 1 fifth$ $equals 1 over 25$
Thus, the correct option is option (a)

Multiply $1 fifth cross times 2 over 10$ .

$3 over 7 cross times 7 over 3$ =

In the question, another approach could be that we can cut both the threes and the sevens, i.e., 3 in the numerator of the first fraction and the 3 in the denominator of the second fraction and 7 in the denominator of the first fraction and 7 in the numerator of the second fraction.. That way we do not have to reduce the fraction later into its simplest form.
Hence, $3 over 7 cross times 7 over 3 equals 1$
Thus, we get option (d) as the correct option.

$3 over 7 cross times 7 over 3$ =