Any shape you want as long as the area within its boundary is 6cm2.examples:a triangle of base 6 cm and height 2 cm;a rectangle 2cm by 3 cm;an L shaped hexagon with sides 5cm, 2cm, 1cm, 1cm, 4cm, 1cm;circle of radius approx 1.382 cm;
For it to be a right angle triangle the 3rd side must be 5cm
kvp calculation 6cm*2+40=?
There will be 1 circle, 1 square, an infinite number of ellipses, an infinite number of rectangles, an infinite number of other quadrilaterals, an infinite number of polygons with 5 or more sides, an infinite number of odd shapes. In all, a lot.
To draw a triangle with an area of 6cm², you need to determine the base and height of the triangle. The formula for the area of a triangle is 0.5 * base * height. So, if the area is 6cm², you could have a base of 4cm and a height of 3cm, or a base of 6cm and a height of 2cm. Once you have the base and height values, you can draw the triangle with those measurements.
No shape can have a volume of 6 cm2
It is a rectangle and has sides of 3+sq rt of 3 and 3-sq rt of 3
Any shape you want as long as the area within its boundary is 6cm2.examples:a triangle of base 6 cm and height 2 cm;a rectangle 2cm by 3 cm;an L shaped hexagon with sides 5cm, 2cm, 1cm, 1cm, 4cm, 1cm;circle of radius approx 1.382 cm;
It could be 3cm by 2cm in size.
For it to be a right angle triangle the 3rd side must be 5cm
kvp calculation 6cm*2+40=?
Yes. Take a simple rectangle of 1cm x 6cm. It's area is 6cm2 and its perimeter is 14cm. Now - a rectangle if 2cm x 3cm has the same area, but has a perimeter of just 10 Centimetres !
There will be 1 circle, 1 square, an infinite number of ellipses, an infinite number of rectangles, an infinite number of other quadrilaterals, an infinite number of polygons with 5 or more sides, an infinite number of odd shapes. In all, a lot.
It will be a right angle triangle with a base of 3cm, a height of 4cm and a hypotenuse of 5cm
The volume of a cuboid (a six sided 3D shape) is how much 'space' or 'room' it takes up. For a regular cuboid (where opposite sides are the same size) it is calculated by multiplying the length by the width by the depth. For example, A block measuring 3cm by 2cm by 5 cm would have the volume 3x2x5= 30cm3. The surface area is the total external area of the shape. It is calculated by multiplying the height and width (surface area ) of each face and adding them together. For example a block measuring 3cm by 2cm by 5cm would have a surface area of S A of face one= 3x2=6cm2 S A of face two=3x2=6cm2 (opposite end to face one) S A of Face three=2x5=10cm2 S A of face four=2x5=10cm2 (opposite end to face three) S A of face five=3x5=15cm2 S A of face six=3x5=15cm2(opposite end to face five) total surface area = 6+6+10+10+15+15= 62cm2
To draw a triangle with an area of 6cm², you need to determine the base and height of the triangle. The formula for the area of a triangle is 0.5 * base * height. So, if the area is 6cm², you could have a base of 4cm and a height of 3cm, or a base of 6cm and a height of 2cm. Once you have the base and height values, you can draw the triangle with those measurements.
100 cm is a measurement of lenght.... it is the direct distance between two points. cm3 is an indication of the measurement of the volume of an object - the cubic capacity. You cannot compare the two, nor can you say there are X cm3 in 100 cm. 24cm3 would be the volume of an object which was 2 cm long, by 3 cm wide, by 4 cm high.... the cubing comes from multiplying an area of cm2 - in this case we get 2cm long by 3 cm wide, giving us 6 cm2 - the square area of the object's base... cm multiplied by cm gives square cm, or cm2. When we multiply the 6cm2 by the 4 cm height we get 24cm3.... because square cm multiplied by cm gives cubic cm.