It is in the hundredths position, so its value is four hundredths.
The absolute value of 3 over 4 is less than one and so there is no representation as a mixed number.
Yes. The letter i denotes the value of the "positive square root" of -1. So i² = -1. But also (-i)² = -1 as well. Remember that for every number there is a "positive" and "negative" square root. So if you want the square root of -4, you can do this: -4 = (-1)(4). So sqrt(-4) = sqrt[(-1)(4)] = sqrt(-1)*sqrt(4) = i*2 or -i*2. We usually write these as 2i and -2i.
you would see where the number is what place value then you put that number over the place value so 0.004 would be 4/1000 in fraction form.
0.016
40,000
fourty thousand
From its placement in the number, the digit 4 represents 40 thousand or 4 ten-thousands
Its positional place value is forty thousand = 40,000
4 is in the ten thousands place in the number 546,210 (five hundred forty six thousand ten)
The digit 4 represents 40,000 = forty thousand
546210 '5' is five hundred thousand '4' is forty thousand '6' is six thousand '2' is two hundred '1' is ten '0' is zero units.
546210 = 5×100000 + 4× 10000 + 6 ×1000 +2×100 + 10
Its positional place value is forty thousand = 40,000
no number; absolute value is always positive. The absolute value of a negative number is positive. For example absolute value of -4 is +4
what is the value of 4 in the number 294,506,893,613
basically a absolute value of a number is a positive of that number and a negative of the number. For example the absolute value of 4 is 4 and -4. |4| = 4;-4