It is -8.
-10
If sea level is 0, then feet above sea level would be a positive integer, while feet below sea level would be a negative integer. The integer for six feet below sea level would be -6.
An integer is not always a whole number because whole numbers are numbers 0 and up. Integers are numbers above and below 0. (Including negatives.) So therefore, if an integer is a negative, it would not be a whole number. But a whole number is always an integer.
Well, isn't that a delightful question! When we talk about temperatures below zero, we use negative numbers. So, if we're looking for 12 degrees below 0, we simply take 0 and subtract 12 from it. That gives us the integer -12, like a little chilly breeze on a winter morning.
3 degrees below 0 mean -3. The reason that 3 below 0 is -3 is because it isnt getting hotter its getting colder is below not above if it said 3 degrees above 0 then your answer would be just 3 but in this case its asking you for below 0!
-10
To represent 78°F above 0 in integer form, you can simply use the integer 78. This indicates a temperature that is 78 degrees above the freezing point of water (32°F) or above 0°F. Thus, 78 is the appropriate integer to convey that temperature.
look this image ANS = answer EXP = explain
if it is one degree below 0 its integer is negative like in this case -1 . to figure it out you just start counting up again but make sure you put the right integer - or + if the integer is + which means positive is above 0 but if is - below 0
-44 cuz when its below 0 the number u got is always below 0 ex: whats 35 below 0 the answer is going to be -35 thank you for reading my answer bye.
-7
-15 = 8c - 15Add 15 to each side:0 = 8cDivide each side by 8:c = 0
If sea level is 0, then feet above sea level would be a positive integer, while feet below sea level would be a negative integer. The integer for six feet below sea level would be -6.
2. c2 + c2 + 8 = 8c 2c2 - 8c + 8 = 0 c2 - 4c + 4 = 0 (c - 2)(c - 2) = 0 (c - 2)2 = 0 c - 2 = 0 c = 2
A non-negative integer is a whole number above 0, and a negative integer is a whole number below 0.
The range of integer constants typically refers to the set of values that an integer can represent within a specific programming language or system. This range is determined by the number of bits used to store the integer; for example, a 32-bit signed integer can represent values from -2,147,483,648 to 2,147,483,647. In contrast, an unsigned 32-bit integer can represent values from 0 to 4,294,967,295. Different systems may have varying limits depending on their architecture and data types.
Positive integers can represent elevations above sea level, while negative integers can represent elevations below sea level. For example, an elevation of 500 meters above sea level can be represented by the integer +500, while an elevation of -200 meters below sea level can be represented by the integer -200.