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  • Hi, welcome to Math Antics.

  • In our last geometry video, we learned that all 2-dimensional shapes have a 1-dimensional quantity called Perimeter

  • which is basically the outline of the shape.

  • In this video, we're going to learn that these shapes also have a 2-dimensional quantity called Area.

  • To help you understand what Area is, let's start by imagining a line that's 1 cm long.

  • Now, let's imagine moving that line in a perpendicular direction a distance of 1 cm.

  • But while we move it, it leaves a trailalmost like the end of a paint brush.

  • By moving the 1-dimensional line that way, we formed a 2-dimensional shape,

  • and all of the space (or surface) that we covered along the way is the Area of that shape.

  • which as you can see here is just a square.

  • Ok, but how much area does this square have?

  • Well, our original line was 1 cm long, and we moved it a distance of 1 cm,

  • so we could say that this shape is a square centimeter.

  • Just like a centimeter is a basic unit for measuring length,

  • a square centimeter is a basic unit for measurement for area.

  • But there are other units for area too.

  • For example, instead of a centimeter, what if our line had been a meter long, and then we moved it 1 meter?

  • The area we'd have gotten would be 1 square meter!

  • Or, what if it was a mile long, and we moved it a mile!? We'd have a square mile of area.

  • So, just like with perimeter, the units of measurement are very important when we're talking about area!

  • Alright, so that gives you a good idea of what area is, but how do we calculate area mathematically?

  • Well, there's some special math formulas (or equations) that we can use to find the area of different shapes.

  • In this video, we're going to learn the formula for squares and rectangles and the formula for triangles.

  • To find the area of any square or rectangle, all we have to do is multiply its two side dimensions together.

  • They're usually called the length and the width, so the formula looks like this: Area equals length times width.

  • But it's often written with just the first letters of each word as abbreviations:

  • ‘A’ for Area, ‘L’ for Length and ‘W’ for Width.

  • So let's see if that formula works for our original square centimeter.

  • If we multiply the length (1 cm) times the width (1 cm), what do we get?

  • Well, 1 x 1 is just 1, but what about cm x cm?

  • Cm x cm just gives us square centimeters, which we can write like this using a '2' as an exponent.

  • We read this as "centimeters squared" and it's just a shorter way of writing cm x cm.

  • So whenever you see units like centimeters squared, or inches squared, or meters squared, or miles squared,

  • you know it's a measurement of the 2-dimensional quantity area.

  • Ok, our formula (area equals length times width) worked for our square.

  • Now let's see if it works for a rectangle.

  • Here's a rectangle that's 4 cm wide and 2 cm long (or tall)

  • First, we plug the length and width into our formula

  • (2 cm and 4 cm)

  • Then we just multiply

  • 2 x 4 equals 8

  • and cm x cm is cm squared.

  • So, according to our formula,

  • the area of this rectangle is 8 centimeters squared.

  • And we can see that's correct if we bring back our original square centimeter.

  • If we make copies of it,

  • you can see that exactly 8 of those square centimeters would be the same area as this rectangle.

  • Great, let's try our formula on one more rectangle.

  • This rectangle is 2 cm long but only half a centimeter wide.

  • And our formula (area equals length times width)

  • tells us that we just need to multiply those two sides together to get our area.

  • Two times one-half equals one.

  • So this rectangle is also 1 square centimeter.

  • How can it be a square centimeter? It's not even a square!

  • Ah - but just because a shape takes up 1 square centimeter of area,

  • that doesn’t mean it has to be a square shape.

  • It just means that the total area would be equal (or the same) as a square centimeter.

  • You can see that if we break the rectangle in half and rearrange it, then it would form a square.

  • In fact, we can use square units (like square centimeters) to measure ANY area,

  • no matter what the shape is.

  • It could be a rectangle, a triangle, a circle or ANY other 2-dimensional shape.

  • Okay, now that you know how to find the area of any square or rectangle using our formula,

  • we're going to learn the formula for finding the area of any triangle.

  • But to do that, we're going to start with a rectangle again.

  • The dimensions of this rectangle are 3 m by 4 m.

  • Sowhat's it's area?

  • Well, using our formula, we know that the area would be 3 m x 4 m which is 12 meters squared.

  • But now, what if we were to cut this rectangle exactly in half along a diagonal line from opposite corners?

  • It forms two triangles!

  • And because each of these triangles is exactly half of the rectangle,

  • that means that the area of either triangle must be exactly half of the area of the rectangle.

  • We already calculated that the area of the entire rectangle is 12 meters squared,

  • so the area of this triangle must be 6 meters squared,

  • and the area of this triangle must be 6 meters squared, since 6 is half of 12.

  • Ah ha! So the formula for the area of a triangle should just be half of the rectangle.

  • So does that mean that instead of, "Area equals length times width" , it should be,

  • "Area equals one-half of length times width" ?

  • Yep! That's basically it,

  • but with one important difference.

  • Instead of 'L' for Length and 'W' for Width, we're going to use two different names for our triangle's dimensions.

  • We're going to call them "Base" and "Height" and here's why.

  • The names "Length" and "Width" worked okay for this right triangle

  • because a right triangle is exactly half of a rectangle.

  • But those names don't really work for other kinds of triangles like acute triangles or obtuse triangles.

  • Because how do you tell which side should be which?

  • So for triangles, we do something different.

  • First we choose one of the three sides to be the "Base".

  • It doesn't really matter which side you choose,

  • and in a lot of math problems, the base will already be chosen for you.

  • Once we decide which side the base is,

  • we imagine setting the triangle down on the ground so that its base is flat on the ground, like this

  • Next, we find the highest point of the triangle, which is the vertex that's not touching the ground.

  • From that point, we draw a line straight down to the ground.

  • The line we draw must be perpendicular with the ground.

  • The length of that line (from the tip of the triangle to the ground) is called the "height" of the triangle.

  • Oh, and some people call the height of a triangle the "altitude"

  • which makes a lot of sense if you pretend that your triangle is a tiny little mountain.

  • [Accordian music and Yodeling]

  • Sometimes the height line is inside the triangle,

  • like with an acute triangle.

  • And sometimes it's outside the triangle,

  • like with a obtuse triangle.

  • And sometimes, it lines up exactly with one of the triangle's sides,

  • like with right triangles.

  • But no matter where it is, the formula for finding the area of ANY triangle is the same:

  • Area equals one-half base times height.

  • So, if we know those two measurements (base and height),

  • we can just plug them into the formula to calculate the area.

  • At first, you might not see how the same formula could work for all three types of triangles, but watch this

  • Here's an acute triangle and this box is one-half its base times its height.

  • If we cut our triangle up,

  • you can see that it fits perfectly inside that area.

  • But wait, there's more!

  • Here's an obtuse triangle with a box that's one-half its base times its height.

  • Again, if we cut up the triangle, .

  • it fits perfectly inside the box

  • Now you can see how the formula, area equals one-half base times height, works for ANY kind of triangle.

  • Okay, we already figured out that the area of this right triangle was 6 square meters,

  • so let's practice using our new formula to calculate the area of these last two triangles.

  • Our diagram shows that the base of this acute triangle is 5 m and it's height is 8 m.

  • So we plug those values into our formula for area

  • and we get area equals one-half of 5 times 8.

  • 5 times 8 is forty and one-half of 40 is 20, so the area of this triangle is 20 meters squared.

  • Don't forget that the units of measurement for area will always be square units!

  • Okay, that was pretty simple. Let's try our last example.

  • The diagram of this obtuse triangle tells us that the base is 4 inches, and the height is 7 inches,

  • so let's plug those values into our formula.

  • We end up with the equation: area equals one-half of 4 times 7.

  • 4 times 7 would be 28, and then we can calculate what one-half of 28 would be by dividing by 2.

  • 28 divided by 2 is 14, so the area of this obtuse triangle must be 14 square inches.

  • Okay, now you know all the basics of area.

  • You know that area is a 2-dimensional quantity that we measure in square units.

  • You've learned the formula for calculating the area of any square or rectangle:

  • "Area equals length times width".

  • And, you've learned the formula for calculating the area of any triangle:

  • "Area equals one-half of the base times height".

  • Butdon't forget to practice what you've learned by working some problems on your own.

  • That's how you really get good at math!

  • As always, thanks for watching Math Antics, and I'll see ya next time.

  • Learn more at www.mathantics.com

Hi, welcome to Math Antics.

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B1 中級 美國腔

數學反常學 - 區域 (Math Antics - Area)

  • 15 9
    Yassion Liu 發佈於 2021 年 01 月 14 日
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