Parabola

 When you kick a soccer ball (or shoot an arrow, fire a missile or throw a stone) it arcs up into the air and comes down again ...

Definition

A parabola is a curve where any point is at an equal distance from:

• a fixed point (the focus ), and
• a fixed straight line (the directrix )

Get a piece of paper, draw a straight line on it, then make a big dot for the focus (not on the line!).
Now play around with some measurements until you have another dot that is exactly the same distance from the focus and the straight line.
Keep going until you have lots of little dots, then join the little dots and you will have a parabola!

Names

Here are the important names:

• the directrix and focus (explained above)
• the axis of symmetry (goes through the focus, at right angles to the directrix)
• the vertex (where the parabola makes its sharpest turn) is halfway between the focus and directrix.

Reflector

And a parabola has this amazing property:

Any ray parallel to the axis of symmetry gets reflected off the surface straight to the focus.

And that explains why that dot is called the focus ...

... because that's where all the rays get focused!

So the parabola can be used for:

• satellite dishes,
• radar dishes,
• concentrating the sun's rays to make a hot spot,
• the reflector on spotlights and torches,
• etc

We also get a parabola when we slice through a cone (the slice must be parallel to the side of the cone).

 

Equations Place the parabola on the cartesian coordinates (x-y graph) with: its vertex at the origin "O" and its axis of symmetry lying on the x-axis, then the curve is defined by: y2 = 4ax

Example: Where is the focus in the equation y²=5x ?

Converting y² = 5x to y² = 4ax form, we get y² = 4 (5/4) x,
so a = 5/4, and the focus of y²=5x is:

F = (a,0) = (5/4,0)

The equations of parabolas in different orientations are as follows:

y2 = 4ax	y2 = -4ax	x2 = 4ay	x2 = -4ay

Measurements for a Parabolic Dish

If you want to build a parabolic dish where the focus is 200 mm above the surface, what measurements do you need?
To make it easy to build, let's have it pointing upwards, and so we choose the x² = 4ay equation.
And we want "a" to be 200, so the equation becomes:

x² = 4ay = 4 × 200 × y = 800y

Rearranging so we can calculate heights:

y = x²/800

And here are some height measurements as you run along:

	Distance Along ("x")	Height ("y")
	0 mm	0.0 mm
	100 mm	12.5 mm
	200 mm	50.0 mm
	300 mm	112.5 mm
	400 mm	200.0 mm
	500 mm	312.5 mm
	600 mm	450.0 mm

Conic Section MCQs

1. The line y=mx+c intersects the circle x²+y²=a² at the most of __________ points.
1. 1
2. 2
3. 3
4. 4


2. The line perpendicular to the tangent line is called ?
1. normal line
2. secant line
3. limit
4. derivative


3. The eccentricity of an ellipse is ?
1. e = 1
2. e < 1
3. e > 1
4. 0 < e < 1


4. The perpendicular distance from the point (3,-4) to the line
   3x²-4x+10=0
1. 7
2. 8
3. 9
4. 10


5. The point of a parabola which is closest to the focus is the __________ of the parabola.
1. vertex
2. latusrectum
3. directrix
4. eccentricity


6. The center of the circle 4x²+4y²-8x+12y-25=0 is ?
1. (2,-3)
2. (-2,3)
3. (-4,6)
4. (4,-6)


7. The radius of the circle 4x²+4y²-8x+12y-25=0 is ?
1. 
2. 
3. 
4. 


8. If the distance between vertex and focus is 3, then the length of latusrectum is ?
1. 6
2. 8
3. 10
4. 12


9. If the discriminent of a conic is h²-ab=0, then it represents a
1. circle
2. parabola
3. hyperbola
4. ellipse


10. The focus of the parabola y²=-8(x-3) is ?
1. (0,0)
2. (1,0)
3. (0,1)
4. (1,1)

Answer key

 

 

1. B
2. A
3. D
4. A
5. A
6. D
7. C
8. D
9. B
10. B

 

A way to Memorizing Maths and Physics Formulas

Memorizing Math and Physics Formulas

1)..Math and Physics problems are not meant to be studied under stress. Relax your mind. By doing this, you will be able to focus more on your task.
2)..Many people think that once they take a glance at a formula, it is in their mind, but when they wake up the next day, they are shocked to realize that the formula leaked out during the night. This is why it is a good idea to practice solving a problem with the formula without looking it up. You must do this as many times as you can. Repetition leads to Memorization.
3).. Put the raw units of each variable into the formula and see if you can get the units of the answer.
4)..Understand How the Formula is structured. You already have a decent gut feeling about the concept. Make sense of the formula. For instance, a = F / m. F is on the top of the fraction. That makes sense, since if you exert more force on an object, it will speed up more quickly. Mass is on the bottom of the fraction, since more mass means more inertia, making the object more difficult to accelerate. The opposite formula (a = m / F) does not make sense. Using this incorrect formula, a strong force (large number on the bottom of the fraction) would cause a smaller acceleration, which does not make sense.
5).. Find a small book and put down all those formulas. Keep the book at your back pocket and try to review them anytime you feel like you are missing something. This will bring back the memories of what you have learned, making those jaw-breaking formulas stick into your mind forever.