How do you compare whole numbers through the millions

Answers

Answer 1

Answer:

Whole numbers are the numbers 0, 1, 2, 3, 4, 5, 6...and so on. It is easier to compare two numbers through the millions using a place value chart. This is illustrated in the Figure bellow. In that example, we have chosen two numbers:

Number one:8,472,102

Number two:8,470,443

So, by comparing these numbers we will have the following steps:

Step 1. The millions are both 8.

Step 2. The hundred thousands are both 4.

Step 3. The ten thousands are both 7.

Step 4. The one thousands digits are 2 and 0.

Stop in this step and compare the digits, so:

2 is greater than 0 or 2 > 0

Therefore, the solution is:

Number one > Number two, that is:

8,472,102 > 8,470,443

In conclusion, you need to stop in the step at which the digits are not the same and compare them. The greatest number is the one with the greatest digit.

Answer 2

Answer: A positive number is greater than a negative number. If both numbers are positive, the longer number - the one with more digits - is larger.

Related Questions

Shino says the formula to calculate the volume of the prism is V=Bh where B is the area of the base.Angelo says the formula is V=1/2 ewh.Who is correct ? Explain
one side of a square is 10 units.Which is greater,the number of square units for the area or the number of units for the perimeter
An initial investment of $60.00 increases in value by 15% each year. Which of the following statements are true? Select all that apply. This function can be represented by the quadratic equation f(x)=0.15(x+60)^2 This situation can be represented by the exponential function f(x)=60 x 1.15^x This function has no x-intercept After 4 years the value of the investment will be $120.00 After 6 years the value of the investment will be $653.00 After 7.86 years the value of the investment will be 3 times the initial value After 8 years the value of the investment will be $184.00
What is 1/6 in decimals
ABCD is a square and a semicircle O has a radius of 6. WHAT is the area of this figure?

What is the best estimate for the product of 289 and seven

Answers

the best estimate is 300*7=2100

What is the answer for 3912.99/15.9

Answers

The question asks the answer that comes out from the division of 3912.99 by 15.9. Both the numbers are in decimal form, so the division will be easy.
3912.99/15.9
= (391299 * 10)/(159 * 100)
= (391299)/(1590)
= 246.10
So the answer that comes out from the division of the two numbers given in the question is 246.10. I hope i have described the full process and it has helped you to understand the way these kind of problems need to be tackled.

The answer to your question is 246.1

The volume of a prism is the product of its height and area of its base, V = Bh. A rectangular prism has a volume of 16y4 + 16y3 + 48y2 cubic units. Which could be the base area and height of the prism?a base area of 4y square units and height of 4y2 + 4y + 12 units
a base area of 8y2 square units and height of y2 + 2y + 4 units
a base area of 12y square units and height of 4y2 + 4y + 36 units
a base area of 16y2 square units and height of y2 + y + 3 units

Answers

We have a prism with a volume of 16y⁴ + 16y³ + 48y² cubic units.
Its volume is equal to the area of its base times its height.
Of course, for those to be the base area and height of this prism, they would have to multiply to 16y⁴ + 16y³ + 48y² cubic units.
Let's test each of these answers to see which gives us the correct volume.
--------------------------------------------------------------------------------------------------
a base area of 4y square units and height of 4y² + 4y + 12 units
We find the volume by multiplying the base area by the height...
4y(4y² + 4y + 12)
Distribute the 4y to each term inside the parentheses.
16y³ + 16y² + 48y
This is not the right volume, so these can not be dimensions of our prism.
--------------------------------------------------------------------------------------------------
a base area of 8y² square units and height of y² + 2y + 4 units
We find the volume by multiplying the base area by the height...
8y²(y² + 2y + 4)
Distribute the 8y² to each term inside the parentheses.
8y⁴ + 16y³ + 32y²
This is not the right volume, so these can not be dimensions of our prism.
--------------------------------------------------------------------------------------------------
a base area of 12y square units and height of 4y² + 4y + 36 units
We find the volume by multiplying the base area by the height...
12y(4y² + 4y + 36)
Distribute the 12y to each term inside the parentheses.
48y³ + 48y² + 432y
This is not the right volume, so these can not be dimensions of our prism.
--------------------------------------------------------------------------------------------------
a base area of 16y² square units and height of y² + y + 3 units
We find the volume by multiplying the base area by the height...
16y²(y² + y + 3)
Distribute the 16y² to each term inside the parentheses.
16y⁴ + 16y³ + 48y²
The volume fits, so these could be the base area and height of our prism.
--------------------------------------------------------------------------------------------------
D. a base area of 16y² square units and height of y² + y + 3 units
--------------------------------------------------------------------------------------------------

Answer:

Option 4) a base area of $16y^2$ square units and height of $y^2 + y + 3$ units

Step-by-step explanation:

We are given the following in the question:

Volume of prism = Bh

where B is the area of the base and h is heigth of the prism

Volume of prism =

$16y^4 + 16y^3 + 48y^2 \text{ cubic units}$

We have to find the base area and the height of the prism from the given options.

Base area = $4y$

Height = $4y^2 + 4y + 12$

Volume = $4y(4y^2 + 4y + 12) = 16y^3 + 16y^2 +48y$

which is not equal to the given volume

Base area = $8y^2$

Height = $y^2 + 2y + 4$

Volume = $8y^2(y^2 + 2y + 4) = 8y^4 + 16y^3 +32y^2$

which is not equal to the given volume

Base area = $12y$

Height = $4y^2 + 4y + 36$

Volume = $12y(4y^2 + 4y + 36) = 48y^3 + 48y^2 +432y$

which is not equal to the given volume

Base area = $16y^2$

Height = $y^2 + y + 3$

Volume = $16y^2(y^2 + y + 3) = 16y^4 + 16y^3 +48y^2$

which is equal to the given volume

30000 equals how many ones

Answers

30,000 equals 30,000 ones, since you are basically counting by one.

All 5 students in Mrs. Awful's class got a 50 on the test. What’s the average grade in this class?

Answers

Answer:

Step-by-step explanation:

add them all up and divide by 5

Answer:

Step-by-step explanation:

divide them all

Say that you put the set of tiles shown below into a bag and conduct a series of trials in which you draw one tile randomly from the bag, record the color, and replace it. The table below shows the number of times in each set of trials that you drew a blue tile. Round tiles: 5 purple, 6 orange, 2 yellow, 4 red, 1 white, 10 blue, 5 black, 3 green. Trial 1 2 3 4 5 # of Draws 54 36 80 22 75 # of Blues 18 11 20 4 32 Between the theoretical probability that you will draw a blue tile and the experimental probability that you will draw a blue tile, which is greater, and how much greater is it? Express all probabilities as percentages to two decimal places, and express differences by number of percentage points (for example, 12% is 2 percentage points greater than 10%). a. The theoretical probability is 2.78 percentage points greater than the experimental probability. b. The theoretical probability is 1.49 percentage points greater than the experimental probability. c. The experimental probability is 4.06 percentage points greater than the theoretical probability. d. The experimental probability is 2.17 percentage points greater than the theoretical probability.

Answers

The correct answer is (c) The experimental probability is 4.06 percentage points greater than the theoretical probability.

To compare the theoretical probability and the experimental probability of drawing a blue tile, we need to first calculate each one.

Theoretical probability of drawing a blue tile:

Total number of tiles = 5 + 6 + 2 + 4 + 1 + 10 + 5 + 3 = 36

Number of blue tiles = 10

Theoretical probability of drawing a blue tile = number of blue tiles / total number of tiles = 10 / 36 = 27.78%

Experimental probability of drawing a blue tile:

Number of draws in the five trials = 54 + 36 + 80 + 22 + 75 = 267

Number of blue tiles drawn in the five trials = 18 + 11 + 20 + 4 + 32 = 85

Experimental probability of drawing a blue tile = number of blue tiles drawn / number of draws = 85 / 267 = 31.84%

To compare the two probabilities, we subtract the experimental probability from the theoretical probability:

Theoretical probability - experimental probability = 27.78% - 31.84% = -4.06%

The result is negative, which means that the experimental probability is greater than the theoretical probability.

However, we need to express this difference as an absolute value (i.e., without the negative sign) and as a number of percentage points.

The absolute value of -4.06% is 4.06%, and this is the amount by which the experimental probability is greater than the theoretical probability.

For more details regarding probability, visit:

brainly.com/question/30034780

#SPJ7

Answer:

The experimental probability is 4.06 percentage points greater than the theoretical probability.

Step-by-step explanation:

Other Questions

Karen is making 14 different kinds of greeting cards.She is making 12 of each Kind.How many greeting cards is she making?

When is the nearest whole number to 3.2

Divide ratio £360 in the ratio 1 : 8

A painter uses 1.2 liters of the paint to cover 1m2 of the wall. How many square meters he can cover with 12 liters of paint?WILL GIVE 25 Points plzzzzzz give