Yes, the result is an enlargement or shrinking, with the origin as centre of enlargement.
"Coordinates" on a grid or graph are numbers that describe a location. There's no physical significance to the process of multiplying two locations, and the procedure is undefined.
Scale factor
A reflection is when a shape flips completely over. The coordinates of the shape will opposite as well. The reflection can change depending what you are flipping it over.
Isoparametric elements use the same set of shape functions to represent both the uniform changes on the initial and secondary conditions and also on local coordinates of elements. The shape functions are defined by natural coordinates, such as triangle coordinates for triangles and square coordinates for any quadrilateral. The advantages of isoparametric elements include the ability to map more complex shapes and have compatible geometries. Besides the accuracy of them is usually more. CPU time for solving linear equations is reduced. most of commercial programs use the isoparametric elements in thier softwares.
There is no formula for calculating the volume of a classroom. A classroom's volume will be calculated based upon the shape of the room. If the classroom has the shape of a cube or rectangular prism, its approximate volume can be calculated by multiplying the length by the width by the height of the room.
A rotation turns a shape through an angle at a fixed point thus changing its coordinates
"Coordinates" are numbers that describe a location. There is no physical significance to the process of multiplying two locations, and the procedure is undefined.
The Area Of A Shape Is Multiplying The width * The Length
how does translation a figure vertically affect the coordinates of its vertices
When a shape is enlarged the multiplying factor is greater than 1. Example : A factor of 7 means that a length of 1cm on the original shape would be represented by a length of 7cm on the enlarged shape.
"Coordinates" on a grid or graph are numbers that describe a location. There's no physical significance to the process of multiplying two locations, and the procedure is undefined.
Shape coordinates - Partial warps - Phylogenetic.
Scale factor
Technically you would be finding the area of that shape
Enlarging: When you are enlarging shapes you make it bigger than its normal size but if you were given a grid and your shape or picture was given a gird and if the grids has the same number of squares but the squares in the other gird are bigger, you just need to check the coordinates from your original shape in the grid and draw the other shape in the other gird with the same coordinates. Reducing: You just reduce (make it smaller) the size of the shape but if you were given a grid and your shape or picture was given a gird and if the grids has the same number of squares but the squares in the other gird are smaller, you just need to check the coordinates from your original shape in the grid and draw the other shape in the other gird with the same coordinates. g3
A 6 sided shape with all sides the same length. Or, when it is written as an indices, multiplying a number by itself and then multiplying a number by itself again.
RS= 2v/2