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3 years ago

What is 126,945 rounded to the nearest thousand

Mathematics

2 answers:

Mashcka [7]3 years ago

6 0

126, 945 rounded to the nearest thousand is 127,000.

timurjin [86]3 years ago

3 0

The answer is 127,000. To round to the nearest thousand, find the thousands place, look at the number that is in the hundreds place. If the number is 5 or more, change the thousands-place number by one. (Ex. If number in the thousand place is 7, change it to 8. If 9, change it to 0 and change the ten thousand place by one.) If the hundred-place number is 4 or less, don't change the thousand-place number. When your done with that, change every digit below the thousands place to zeros.

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Answer:

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5 1/3 * 2 * 6=64.

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3 years ago

Graph the solution of the system of linear inequalities. y + 2x ≥0 3x-2y≤6

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2 years ago

Q16. If the perimeter of a rectangular house is 25 1/3 yards, and the length is 22 feet. What is the

Romashka-Z-Leto [24]

Answer:

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7 0

2 years ago

Q and r are independent events. if p(q) = 1/4 and p(r)=1/5, find p(q and r)

klasskru [66]

Answer:

(b) $\frac{7}{30}$

Step-by-step explanation:

When two p and q events are independent then, by definition:

P (p and q) = P (p) * P (q)

Then, if q and r are independent events then:

P(q and r) = P(q)*P(r) = 1/4*1/5

P(q and r) = 1/20

P(q and r) = 0.05

In the question that is shown in the attached image, we have two separate urns. The amount of white balls that we take in the first urn does not affect the amount of white balls we could get in the second urn. This means that both events are independent.

In the first ballot box there are 9 balls, 3 white and 6 yellow.

Then the probability of obtaining a white ball from the first ballot box is:

$P (W_{u_1}) = \frac{3}{9} = \frac{1}{3}$

In the second ballot box there are 10 balls, 7 white and 3 yellow.

Then the probability of obtaining a white ball from the second ballot box is:

$P (W_{u_2}) = \frac{7}{10}$

We want to know the probability of obtaining a white ball in both urns. This is: P( $W_{u_1}$ and $W_{u_2}$ )

As the events are independent:

P( $W_{u_1}$ and $W_{u_2}$ ) = P ( $W_{u_1}$ ) * P ( $W_{u_2}$ )

P( $W_{u_1}$ and $W_{u_2}$ ) = $\frac{1}{3}* \frac{7}{10}$

P( $W_{u_1}$ and $W_{u_2}$ ) = $\frac{7}{30}$

Finally the correct option is (b) $\frac{7}{30}$

3 0

3 years ago

What is y=-4/3x +6. y=2

Mekhanik [1.2K]

The given equation is:
[/tex]y=-\frac{4}{3}x+6 [/tex] and we need to evaluate this for y=2.
So, first step is to plug in 2 for y in the above equation. Therefore,

$2=-\frac{4}{3} x+6$
$2*3=-\frac{4}{3} x*3+6*3$ Multiply each sides by common denominator 3
$6=-4x+18$
6-18= -4x Subtract 18 from each sides.
-12=-4x
$-\frac{12}{-4} =-\frac{4x}{-4}$
So, x=3

5 0

3 years ago