If you are looking for the angle of elevation from the ground to the top of Qutub Minar, here is a solution. Qutub Minar is 72.5 meters tall. The angle of elevation would equal arctan(72.5/5). It comes out to approximately 86.05 degrees.
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
Trigonometry is used to find the distance and angle of atoms that are bonding. Oh this is for chemistry by the way hope this was helpful. :)
If the base of the elevation is at a distance d from the observer, then the highest point is at a height = d*tan(angle of elevation)
The angle of elevation is increased as the plane flies closer because of the decreasing distance.
Using the formula: tangent = opposite/adjacent whereas tangent angle = height/ground distance, will help to solve the problem
Using trigonometry and the sine ratio the distance is 959 meters to the nearest meter.
distance and angle
distance and angle of elevation are closely related as the more closer you move, the half is the angle of elevation. for e.g. if you travel 30m and cover 15m then, the angle of elevation will be half of what you started with. this can be also proved by a live example as when you have the angle of elevation as 90 degree, then the distance can be zero....
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
Trigonometry is used to find the distance and angle of atoms that are bonding. Oh this is for chemistry by the way hope this was helpful. :)
If the base of the elevation is at a distance d from the observer, then the highest point is at a height = d*tan(angle of elevation)
With a protractor. Or measure some distance, and use trigonometry.
The angle of elevation is increased as the plane flies closer because of the decreasing distance.
Angle of elevation: tangent angle = opposite/adjacent and by rearranging the given formula will help to solve the problem
Using the formula: tangent = opposite/adjacent whereas tangent angle = height/ground distance, will help to solve the problem
Using the sine rules in trigonometry the height of the mountain works out as 3704 meters in height to the nearest whole number.
Your best bet here would be to use trigonometry. One stand a given distance away from the tree and sight the top of the tree, say with a clinometer, to measure the angle of elevation. Then knowing the angle and the distance you are from the tree, the height of the tree can be calculated with a tangent function.