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3 years ago

Find the equation of the line that passes through the point (2, 1) and is perpendicular to y=(−2/5)x+3.

Mathematics

2 answers:

Natali [406]3 years ago

4 0

Answer:

Step-by-step explanation:

perp. 5/2

y - 1 = 5/2(x - 2)

y - 1 = 5/2x - 5

y = 5/2x - 4

Nesterboy [21]3 years ago

4 0

Answer:

The answer is

Step-by-step explanation:

Equation of a line is y = mx + c

where

m is the slope

c is the y intercept

To find the equation of the perpendicular line we must first find the slope of the original line

The original line is y = - 2/5x + 3

Comparing with the general equation above

Slope/m = - 2/5

Since the lines are perpendicular to each other the slope of the perpendicular line is the negative inverse of the original line

So we have

$m \times m _1 = - 1 \\ - \frac{2}{5} m _1 = - 1 \\ = - 2m _1 = - 5 \\ = m _1 = \frac{5}{2}$

So the slope of the perpendicular line is

5/2

So the equation of the line using point

(2, 1) and slope 5/2 is

$y - 1 = \frac{5}{2} (x - 2) \\ y - 1 = \frac{5}{2} x - 5 \\ y = \frac{5}{2} x - 5 + 1$

We have the final answer as

$y = \frac{5}{2} x - 4$

Hope this helps you

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Find tan2θ if θ terminates in Quadrant IV and cosθ = 3/5.

natali 33 [55]

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$\cos( \alpha ) = \frac{3}{5} \\$

${sin}^{2}( \alpha ) = 1 - {cos}^{2} ( \alpha )$

${sin}^{2}( \alpha ) = 1 - ({ \frac{3}{5} })^{2} \\$

${sin}^{2}( \alpha ) = 1 - \frac{9}{25} \\$

${sin}^{2}( \alpha ) = \frac{25}{25} - \frac{9}{25} \\$

${sin}^{2}( \alpha ) = \frac{16}{25} \\$

$sin( \alpha )= ± \sqrt{ \frac{16}{25} } \\$

In Quadrant IV , sin is negative .

Thus ;

$sin( \alpha ) = - \sqrt{ \frac{16}{25} } \\$

$\sin( \alpha ) = - \frac{4}{5} \\$

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$\tan(2 \alpha ) = \frac{ \sin(2 \alpha ) }{ \cos(2 \alpha ) } \\$

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$\sin(2 \alpha ) = 2. \sin( \alpha ). \cos( \alpha )$

$\sin(2 \alpha ) = 2 \times ( - \frac{4}{5} ) \times ( \frac{3}{5} ) \\$

$\sin(2 \alpha ) = - \frac{24}{25} \\$

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$\cos(2 \alpha ) = {cos}^{2}( \alpha ) - {sin}^{2}( \alpha )$

$\cos(2 \alpha ) = ({ \frac{3}{5} })^{2} - ({ - \frac{4}{5} })^{2} \\$

$\cos(2 \alpha ) = \frac{9}{25} - \frac{16}{25} \\$

$\cos(2 \alpha ) = - \frac{7}{25} \\$

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$\tan(2 \alpha ) = \frac{ \sin(2 \alpha ) }{ \cos(2 \alpha ) } \\$

$\tan(2 \alpha ) = \frac{ - \frac{24}{25} }{ - \frac{7}{25} } \\$

$\tan(2 \alpha ) = - \frac{24}{25} \div - \frac{7}{25} \\$

$\tan(2 \alpha ) = - \frac{24}{25} \times - \frac{25}{7} \\$

$\tan(2 \alpha ) = \frac{24}{7} \\$

Thus the correct answer is (( C )) .

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4 0

3 years ago

Read 2 more answers

If you get the right answer you get a good review therefore more points

IrinaVladis [17]

Answer:

the slope of the line will change from negative to positive

Step-by-step explanation:

6 0

3 years ago

insens350 [35]

Answer to A:

16.67%

Explanation to A:

If we need a number greater than five, the only number left is six, meaning there is $\frac{1}{6}$

$\frac{1}{6} = 0.166666666$

We can make it a percent by moving the decimal two places to the right and rounding to the thousandths place (two numbers). This would make our final answer 16.67%

Answer to B:

50%

Explanation to B:

There are three even numbers: 2, 4, and 6. This means we have a $\frac{3}{6}$ chance to land on one.

$\frac{3}{6} = 0.5$

0.5 = 50%

8 0

4 years ago

The perpendicular distance of p (3,4) from the y - a x is _____

solmaris [256]

Answer:

Step-by-step explanation:

The perpendicular distance from the y- axis is the value of the x- coordinate, so

perpendicular distance is 3 units

8 0

3 years ago

What is P(tails ) P(tails)start text, P, left parenthesis, t, a, i, l, s, end text, right parenthesis? If necessary, round your

blagie [28]

Question is not clear enough

I'll assume the question is this:

A fair coin has 2 sides (heads and tails) that are equally likely to show when the coin is flipped. What is P(tails)?

Answer:

P(tails) = 0.5

Step-by-step explanation:

Given:

Number of sides = 2

Number of head = 1

Number of tails = 1

Let P(Tail) = Probability of obtaining a tail when the coin is flipped.

P(Tails) is calculated as follows;

P(Tails) = Number of Tails/Total Number of Sides

Substitute in the values of Number of Tails and Total Number of Sides

P(Tails) = 1/2

P(Tails) = ½

P(Tails) = 0.5

Hence, the probability of obtaining a tail provided that the two sides of the coin are equally likely to show when the coin is flipped is 0.5

4 0

3 years ago