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
congruent shapes :)
congruent shapes are the same shape and size... i think
Yes.
All congruent shapes have to be are the same size and shape. If you cut lots of cookies with the same cookie cutter then they all would be congruent.
no
resizeing
Resizing.
Resizing
Resizing
Use VIEW, or hold down the control key and rool the mouse wheel.
when reducing or enlarging the dimensions you obviously have to change the dimensions. but do not change the ratio of the vaules. also do not cahnge the unit of the values.
ResizingBy: Unaxyresizing, because when you resize an object you are making a thing big or small.( :
ResizingBy: UnaxyIf you are changing the size it's called scaling or 'resizing,' if you are changing the size while clipping out unneeded outer parts, it's called 'cropping.'
Morris Gurrie has written: 'The complete book of enlarging' -- subject(s): Enlarging, Photography
In aerodynamics, the drag coefficient is a measure of how much air resistance an object experiences as it moves through the air. The shape of an object greatly influences its drag coefficient. Generally, objects with streamlined shapes, such as teardrops, experience lower drag coefficients compared to objects with more blunt or irregular shapes. This is because streamlined shapes help air flow smoothly around the object, reducing turbulence and therefore reducing drag.
The magnification power refers to the enlarging power of a microscope. A microscope basically magnifies objects that are placed under the slides.
The drag coefficient varies among different shapes due to their aerodynamic properties. Shapes with streamlined designs, such as airfoils, have lower drag coefficients compared to shapes with more blunt or irregular surfaces. This is because streamlined shapes allow for smoother airflow around the object, reducing drag. In contrast, shapes with sharp edges or protrusions create more turbulence in the airflow, resulting in higher drag coefficients.