Sunday

July 5, 2015

July 5, 2015

Total # Posts: 9

**math**

Find the slope, if it exists, of the line containing the pair of points. (-6.8,11.8) and (-6.4,7.6)
*September 10, 2010*

**math**

Find an equation of the line containing the given pair of points. (1,5) and (3,6) y =
*September 10, 2010*

**math**

Write an equation of the line containing the given point and parallel to the given line. (-7,6); 8x=9y+5 The equation of the line is y =
*September 10, 2010*

**math**

Find an equation of the line having the given slope and containing the given point. m= -3, (1,3) The equation of the line is y =
*September 10, 2010*

**math**

Find an equation of the line having the given slope and containing the given point. m= -3, (1,3) The equation of the line is y =
*September 10, 2010*

**math needed by 12midnight **

Reiny, you stated, i can find my result by just looking at them, but I'm not exaclty sure about that. 1) y = x + 4 y = x - 3 2) y = 3x - 7 y = -1/3 x + 10 3) y = 3x -7 y = -3x + 10 I've gotten different answers on whether the sets of lines are parallel, perpendicular ...
*September 9, 2010*

**math needed by 12midnight **

How can you determine if two lines are perpendicular? How can you tell if two lines are parallel? State whether the following sets of lines are parallel, perpendicular or intersecting. Then explain why. 1) y = x + 4 y = x - 3 2) y = 3x - 7 y = -1/3 x + 10 3) y = 3x -7 y = -3x...
*September 9, 2010*

**algebra need by 10p cst**

How can you determine if two lines are perpendicular? How can you tell if two lines are parallel? State whether the following sets of lines are parallel, perpendicular or intersecting. Then explain why. 1) y = x + 4 y = x - 3 2) y = 3x - 7 y = -1/3 x + 10 3) y = 3x -7 y = -3x...
*September 9, 2010*

**Math - I need this by midnight std time**

A ramp must not rise more than 1 foot over a horizontal distance of 12 feet. a) What is the maximum slope of the ramp into the house b) If the horizontal distance into the house is 48 feet, what is the maximum allowable rise of the ramp?
*August 28, 2010*

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