Formula for working out height of a tree is (distance from eye to base of tree/distance from eye to base of stick) x length of stick = tree height.(distance from eye to base of tree/distance from eye to base of stick) x length of stick = tree height is the formula for working out height of a tree.
The formula "length x width x height" is a general formula to find VOLUME?
Using trigonometry. By measuring a certain distance from the tree and knowing the angle of elevation you can use the tangent ratio: tan = opp (the height of the tree)/adj (the distance) Rearrange the formula: opp = adj*tan
The formula for the area of a quadrilateral is... BASE*HEIGHT/3
Volume
Formula for working out height of a tree is (distance from eye to base of tree/distance from eye to base of stick) x length of stick = tree height.(distance from eye to base of tree/distance from eye to base of stick) x length of stick = tree height is the formula for working out height of a tree.
The formula "length x width x height" is a general formula to find VOLUME?
we can find the balance factor of highty balance tree with height of left subtree- height of right sub tree
Using trigonometry. By measuring a certain distance from the tree and knowing the angle of elevation you can use the tangent ratio: tan = opp (the height of the tree)/adj (the distance) Rearrange the formula: opp = adj*tan
A clinometer can be used to measure the angle of elevation on the top of the coconut tree. You then measure the distance, D, from your position to the point underneath the top of the coconut tree. Coconut trees are often not straight so this point may not correspond to its base. Then the height of the top of the tree from your eye level, H is given by the formula: H = D*tan(x) so that the tree's full height is H + h where h is the height of your eyes above the ground level.
The formula for the area of a quadrilateral is... BASE*HEIGHT/3
Volume
1/2*base*height = area height = (2*area)/base
Height x Weight x Height
Height x Weight x Height
Height x Weight x Height
pi * radius2 * height