Numbers

Oh, dude, that's a big number! So, like, to say 1,125,899,906,842,624, you'd be like, "one quadrillion, one hundred twenty-five trillion, eight hundred ninety-nine billion, nine hundred six million, eight hundred forty-two thousand, six hundred twenty-four." But, like, who's counting, right?

In a subtraction sum, for example, 8 - 3 = 5, the first number is called the minuend. The second number is called the subtrahend, while the third number is the difference. Therefore, the number from which you are subtracting is called the minuend.

The number 1.95 is equivalent to 195/100 or 39/20 in fraction form. In decimal form, it can also be written as 1.95. This number can also be expressed as a percentage by multiplying it by 100, resulting in 195%.

They both go into multiples of 60 such as 480.

To convert a decimal number to a fraction, you can place the decimal number over a power of 10. In this case, 0.2 can be written as 2/10. To simplify this fraction, you can divide both the numerator and denominator by their greatest common factor, which is 2 in this case. Therefore, 0.2 is equal to the whole number 1/5.

To convert 3.07 to a fraction, we first need to recognize that the decimal point is in the hundredths place. Therefore, 3.07 can be expressed as 3 and 7/100 in mixed number form. To simplify this further, we can convert 7/100 to its simplest form by dividing both the numerator and denominator by their greatest common factor, which is 1. This gives us the final mixed number of 3 and 7/100.

Well, honey, a mixed number consists of a whole number and a fraction. So, the mixed number for 30.5 would be 30 1/2. It's as simple as that, darling.

Well, honey, I hate to break it to you, but no matter how you slice it, you can't multiply two numbers less than 1 to get 0.1. It's like trying to squeeze blood from a turnip - just ain't gonna happen. So, in the immortal words of Cher, "Snap out of it!"

12, -12

My conjecture (an opinion based on incomplete information) is that the product of two odd numbers is 22.

There is no requirement for a conjecture to be true.

15% of 28

= 15% * 28

= 0.15 * 28

= 4.2

Use the Pigeonhole Principle (also called the Dirichlet Principle). First, pick 50 different positive integers, and let them be a1, a2, ..., a50, with a1 < a2 < ... < a50. Call this set A. If any of these 50 integers differ by exactly 50, then you're done; so assume that they don't. Then a1+/- 50, a2+/- 50, ..., a50 +/- 50 (using the + sign for those values less than or equal to 50, and the minus sign for those values that are greater than 50) must be the other 50 numbers in the range from 1 to 100. Call this set B. So sets A and B combined represent all the integers from 1 to 100. Now, pick the 51st number. It must come from set B (since it's not one of the first 50 integers picked, which got put in set A). But then it must be equal to ai +/- 50 for some value of i, and hence differs from one of the other numbers chosen by exactly 50.

Two numbers that equal -2 are -3 and 1. When you add -3 and 1, you get -2. This is because -3 + 1 = -2.

6

Oh, isn't that a lovely question! Shapes with an odd number of faces can be quite special. One shape that fits this description is a pyramid. It has a triangular base and three faces meeting at a single point, creating a total of four faces.

The LCM of 7 & 11 is 77.

Because the trigonometric functions (sine and cosine) are periodic, with period 2*pi. If the argument were not restricted, you would have an infinite number of answers.

You could, of course, restrict the argument to any interval of size 2*pi: 3.5pi to 5.5pi, for example.

To read the number 602,000,000,000,000,000,000,000, you would say "six hundred two sextillion." In this number, each group of three zeros represents a different level of magnitude: thousand, million, billion, trillion, quadrillion, quintillion, sextillion.

Six tenths.

Oh, dude, "ixx" in Roman numerals is not a thing. It's like saying, "Hey, I'm going to eat a pineapple pizza with extra pineapples." It just doesn't exist in the Roman numeral world. If you want to represent the number 19, you'd use "XIX." So, yeah, "ixx" is a big nope in Roman numerals.

46

Oh honey, 87 in word form is eighty-seven. It's not rocket science, just say what you see. Next time, maybe try counting with your fingers if you need help with those pesky numbers.

you write it just as you see it. 3.02 = three hundred and two

It is: 8 and 7/10