0.043 0.05 0.1 0.12 0.2 0.6 0.78
To find the range of a data set, you first need to order the data from smallest to largest. In this case, the data is already ordered in such a way. The next step is to take the least (-4) and greatest (1) numbers, and subtract the least from the greatest. In this case, we'd do 1-(-4) which equals 5. Thus the range of the data set in the question is 5.
To find the largest three-digit even number using the digits 3, 4, and 5, you need to arrange these digits in descending order to maximize the number, ensuring that the last digit is even. The largest possible even number is 542
Percentage is essential.
the permutation is an specific ordered combination. the combination is not need specific order combination...
You need the mean and standard deviation in order to calculate the z-score. Neither are given.
There is no largest nor smallest. All you need is another prefix to increase [or decrease] the previous largest [smallest] by a factor of 1000.
Median is the middle number so you need to put them in order from the smallest to the largest and find the middle number. If this is two numbers you need to add them together and divide by two!
Around your neck. If you need to know the smallest perimeter, then measure around the smallest part of your neck. If you need to know the largest perimeter, then measure around the largest part of your neck. If you need to know the average perimeter, then measure around the smallest part of your neck AND the largest part of your neck, add the numbers together, & then divide that result by 2.
leave it the way it is
To determine range in a specified set of numbers, or data, you need to subtract the smallest number from the largest number. In this particular case, 225 is the smallest and 552 is the largest, 552 minus 225 is 327.
The relationship between addition and subtraction is inverse. We can add two counting numbers together, and we do not need to pay attention to the order of these whole numbers. But, for subtraction, we have to subtract the smallest counting number from the largest counting number.
There's no theoretical minimum to size, except that you need to have more than a single molecule to call it a "rock". The smallest bits would thus be on the order of nanometers.
First you need some sort of store. Hire the maximum bitzens(3) to work there. Now start ordering products. You can only order 1 product at a time so order whatever has the most quantity first. Then second largest, then smallest(you might need to order some products twice). When you finish you should be rewarded with a tower buck(you don't get rewarded for the same store in one day, just repeat the next day).
This code find s the largest and the smallest number in an array terminated with a zero. It's not exactely a perfect match for the question but I dion't believe in answering question papers. It's always good to let the student do some work. There's enough example here to cut it down to provide an answer to the question. CODE SEGMENT MOV AX,DATA MOV DS,AX ; initialize DS MOV DI, OFFSET ARRAY ; DI points to the array MOV AX, [DI] ; AX contains the first element MOV LARGEST, AX ; initialize largest MOV SMALLEST, AX ; initialize smallest MOV CX,6 ; loop counter Al: MOV AX, [DI] ; get array value CMP AX, SMALLEST ; [DI] = smallest? JGE A2 ; yes : skip MOV SMALLEST, AX ; no : move [DI] to smallest JMP A3 ; as it is smallest, thus no need ; to compare it with the largest . i A2: CMP AX,LARGEST ; [DI] = largest JLE A3 ; yes : skip MOV LARGEST, AX ; no : mov [Dl] to largest A3: ADD DI,2 ; point to next number LOOP A1 ; repeat the loop until CX = 0 MOV AX, 4C00h INT 21h ; halt, return to DOS CODE ENDS DATA SEGMENT ARRAY DW -1, 2000, -4000, 32767, 500, 0 LARGEST DW ? SMALLEST DW ? DATA ENDS END.
- The organisms have to fit into the energy pyramid- The largest number of organism in any ecosystem needs to be the producers- The smallest number of organism need to be the highest level of consumers in that ecosystem
6 im sure
No humans do not have the largest diastema amongst the primate. Actually we have the smallest diastema compared to other primates such as gorillas, chimps, and orangutans. The reason being is because I learned in my bio class that in order for those apes to have fairly large canine teeth which is not only used for eating but also mainly for defending themselves they need to have a huge gap in between the incisors and canine teeth.