L+WXH = f3 -m4 +3=(4h3)
well it depends on what object, for a square it's area = length of 1 side squared. for a triangle, it's area = 1/2BxH for a rectangle, it's area = WxH for a parallelogram, it's area = BxH for a trapezoid, it's area = 1/2(top length+base length) x height for a circle, it's area = PIExRADIUS squared
let t be the area of the top s be the area of the side and f be the area of the front L=length W=width H=height s=WxH t=LxW f=LxH To find the volume we need L X W X H=(t/w)(s/h)(f/l)=tsf/Volume of the box So the volume squared = tsf which we are given and we just need to take the square root of that. So your answer is squareroot (rst)=volume of the box.
Ignore the pendants and assume no conventions..always state clearly your dimensions with unit used (cms or ins.) and orientation i.e. either WxH or HxW or Portrait or Landscape. This way no confusion.. it doesn't take much to be clear but can save a lot of trouble.
L+WXH = f3 -m4 +3=(4h3)
They are: Length x Height + Length x Width + Height x Width Or: LxH + LxW +HxW and then youl will get the answer of the shape. The length is the tom part of the shape the width is the side and the night is the length from top to bottom.
well it depends on what object, for a square it's area = length of 1 side squared. for a triangle, it's area = 1/2BxH for a rectangle, it's area = WxH for a parallelogram, it's area = BxH for a trapezoid, it's area = 1/2(top length+base length) x height for a circle, it's area = PIExRADIUS squared
Measure WIDTH and HEIGHT - multiply both figures - result = Sq Ft. Isn't LENGTH an essential part of this formula? The WIDTH I refer too is also/can be called the LENGTH of a wall - easily. Actually the latter may in fact be more frequently used. In any case, the multiplication of WxH or LxH will give the right answer - wall surfaces have only 2 dimensions.
The good thing about the developments of rectangular boxes is that they are still rectangular! In order to find the surface area of the paper needed to make a box, you would first need to determine the measurements of your finished box. One you have determined your length (L), width (W), and height (H), you will need to do some simple math. 2(LxW) + 2(WxH) + 2(LxH) = the area of paper that you need to make a box.
Surface area is easy but hard. i will give you the formula and an example.Formula: 2xlxw+2xlxh+2xhxw.l= lengthw= widthh= heightnow say h= 4 in, l= 12 in and w= 3.5 in. now you would do lxw or 12x3.5. then multiply the product by 2. then do lxh or 12x4. now multiply by 2. finally, do hxw or 4x3.5. now add all your answers to get the final sum.It depends on what you are looking for the surface area of. If it's a rectangular shape, it's length times width.
The door only (not including threshold, jamb brick mold or casing is 80" tall and the width varies. 36" (3' 0") is required for handicap and also makes it easier to move large objects in and out. . 32" (2' 8") is also common
The width of a CD case is five inches. The length, in case you are wondering, is 4.75 inches. This is the length and width of an average CD case. Some might be a little different, but this is the one most commonly used.
let t be the area of the top s be the area of the side and f be the area of the front L=length W=width H=height s=WxH t=LxW f=LxH To find the volume we need L X W X H=(t/w)(s/h)(f/l)=tsf/Volume of the box So the volume squared = tsf which we are given and we just need to take the square root of that. So your answer is squareroot (rst)=volume of the box.
A two dimensional shape is a flat shape. Its extent is given by two measures of distances. These are often called length and breadth, but unfortunately, other words are also used: breadth, height (WxH for a poster, for example).A three dimensional shape is a solid shape whose extent requires three measures of distances. These are usually the length, breadth and height (but width can replace one of them).It is, of course, possible to specify the shape using fewer or more measures. The size of a circle or sphere are wholly specified using only one measure - the radius or diameter. On the other hand a quadrilateral (2-d shape) needs 5. Given only the lengths of the 4 sides, it is always possible to flex a quadrilateral to make a different shape.A two dimensional shape is a flat shape. Its extent is given by two measures of distances. These are often called length and breadth, but unfortunately, other words are also used: breadth, height (WxH for a poster, for example).A three dimensional shape is a solid shape whose extent requires three measures of distances. These are usually the length, breadth and height (but width can replace one of them).It is, of course, possible to specify the shape using fewer or more measures. The size of a circle or sphere are wholly specified using only one measure - the radius or diameter. On the other hand a quadrilateral (2-d shape) needs 5. Given only the lengths of the 4 sides, it is always possible to flex a quadrilateral to make a different shape.A two dimensional shape is a flat shape. Its extent is given by two measures of distances. These are often called length and breadth, but unfortunately, other words are also used: breadth, height (WxH for a poster, for example).A three dimensional shape is a solid shape whose extent requires three measures of distances. These are usually the length, breadth and height (but width can replace one of them).It is, of course, possible to specify the shape using fewer or more measures. The size of a circle or sphere are wholly specified using only one measure - the radius or diameter. On the other hand a quadrilateral (2-d shape) needs 5. Given only the lengths of the 4 sides, it is always possible to flex a quadrilateral to make a different shape.A two dimensional shape is a flat shape. Its extent is given by two measures of distances. These are often called length and breadth, but unfortunately, other words are also used: breadth, height (WxH for a poster, for example).A three dimensional shape is a solid shape whose extent requires three measures of distances. These are usually the length, breadth and height (but width can replace one of them).It is, of course, possible to specify the shape using fewer or more measures. The size of a circle or sphere are wholly specified using only one measure - the radius or diameter. On the other hand a quadrilateral (2-d shape) needs 5. Given only the lengths of the 4 sides, it is always possible to flex a quadrilateral to make a different shape.
Looks like most (if not all) micro SD memory modules need to be inserted into an SD adapter, and from there, into the SD slot. The adapter is the shape and size of a normal SD card, and should have come with the microSD card when purchased. Soon there may be devices that can use the card directly. If your device is enabled with one, the older SD slot is about the size (HxW) of a quarter looking at it from the side. Cheers.