yes
There are four halves in 2. This is because each whole number can be divided into two equal parts, and since 2 is a whole number, it can be divided into four halves (1/2 + 1/2 + 1/2 + 1/2 = 2).
1.5
Yes, but not of the same shape unless the trapezoid is isosceles. The solution requires calculating a slope and solving using the quadratic formula. It's not as simple as cutting a rectangle into 2 equal halves.
During telophase when the cytoplasm splits in half. It's called cytokinesis.
There are 12 halves in 6 inches. This is because each inch can be divided into two equal parts, making two halves per inch. Therefore, when you have 6 inches, you have 6 x 2 = 12 halves in total.
There are four halves in 2. This is because each whole number can be divided into two equal parts, and since 2 is a whole number, it can be divided into four halves (1/2 + 1/2 + 1/2 + 1/2 = 2).
1.5
7
Yes, but not of the same shape unless the trapezoid is isosceles. The solution requires calculating a slope and solving using the quadratic formula. It's not as simple as cutting a rectangle into 2 equal halves.
During telophase when the cytoplasm splits in half. It's called cytokinesis.
Five halves divided by five fourths = 2
There are 12 halves in 6 inches. This is because each inch can be divided into two equal parts, making two halves per inch. Therefore, when you have 6 inches, you have 6 x 2 = 12 halves in total.
[3* sq(2)]/2 is the same as three halves times root two, or approximately 2.12132034356
A half pound can be divided into two halves.
Two halves equal a whole. (1/2 + 1/2 = 1)
There are 12 halves in 6 wholes. Since each whole can be divided into 2 halves, you multiply the number of wholes (6) by 2, resulting in 12 halves.
(3/4)/2 would be the same as (3/4)*2, and that would equal 6/4 and could be simplified to be 3/2. Three fourths divided by two equals three halves.