Any formula for the height of a rhombus will depend on the information that you do have. Without that, all that can be said is that, if the sides of the rhombus are x units, then 0 < h < x where the height is h units.
If h = 0 then the rhombus degenerates into a flat line, while at h = x it becomes a square.
Area = length*perpendicular height or 0.5*the product of its diagonals
According to my maths teacher its: length x vertical height ------------------------------- 2 Hope I helped :)
There is no general formula to "work out" a rhombus. It all depends on the information that you have and the information that you require.
It is its vertical perpendicular height
sick
Area = length*perpendicular height or 0.5*the product of its diagonals
It depends on what the formula is for (perimeter, are, length of side, height, angles, etc) and what information you have (same list).
According to my maths teacher its: length x vertical height ------------------------------- 2 Hope I helped :)
There is no general formula to "work out" a rhombus. It all depends on the information that you have and the information that you require.
It is its vertical perpendicular height
sick
The area of a rhombus is calculated by multiplying the base x the vertical height.
Perimeter of a rhombus = 4 x (length of one side)(Notice how closely the formula resemblesthe one for the perimeter of a square.)
There is no specific "formula." If you want the area of a rhombus, that is just A = bh/2 or (1/2)xy where x and y are the lengths of the diagonals.
The area of a rhombus can be calculated using the formula ( A = \frac{1}{2} \times d_1 \times d_2 ), where ( d_1 ) and ( d_2 ) are the lengths of the diagonals. Alternatively, if you know the base (b) and height (h), the area can also be calculated as ( A = b \times h ). The area represents the total space enclosed within the rhombus.
The surface area of a rhombus can be calculated using the formula: ( \text{Area} = \frac{1}{2} \times d_1 \times d_2 ), where ( d_1 ) and ( d_2 ) are the lengths of the diagonals. Alternatively, if the length of a side ( s ) and the height ( h ) are known, the area can also be calculated using ( \text{Area} = s \times h ).
Area of a rhombus: base times perpendicular height Or area of a rhombus: 0.5 times product of its diagonals