26.7 seconds
The leg opposite the 58 degree angle is the height of the kite above the ground. So, the leg is 36 ft.
Use the sine ratio to find the height of the kite: sine = opposite (height of kite with the horizontal) divided by the hypotenuse (the string) Rearrange the formula: sine*hypotenuse = opposite sine 25 degrees*150 = 63.39273926 feet Height of kite above the ground: 63.39273926+4.5 = 67.89273926 feet Therefore the kite is 68 feet above the ground to the nearest foot
The tail causes drag and keeps the kite stable. By pulling down, on the part of the kite it is attached to, it keeps it orientated upright and more stable.The longer the tail, the more drag. A short tail, may not be enough in a strong wind to stabilise the kite. A tail that is too long, may cause difficulties in getting it off the ground in a light wind.
The tail causes drag and keeps the kite stable. By pulling down, on the part of the kite it is attached to, it keeps it orientated upright and more stable.The longer the tail, the more drag. A short tail, may not be enough in a strong wind to stabilise the kite. A tail that is too long, may cause difficulties in getting it off the ground in a light wind.
26.7 seconds
Weight and area exposed to the wind are key factors in kite design. The greater the effective area facing the wind and the lighter the kite, the less wind you need to get the kite off the ground.
If you touch the kite while you are in contact with the ground or anything touching the ground, like a ladder, electricity will travel from the power lines down the kite and into you, and you will be shocked.
43.3
To the ground pretty abruptly the tension of the string in relation to the wind causes the kite to create lift if you take out any part of that equation the kite will no long create lift and will tumble to the ground
Your answer is the same place as where you put a kite in real life. HINT: NOT UNDER GROUND!
gravity
nothing when it is in the air but on the ground about 6g
The leg opposite the 58 degree angle is the height of the kite above the ground. So, the leg is 36 ft.
Use the sine ratio to find the height of the kite: sine = opposite (height of kite with the horizontal) divided by the hypotenuse (the string) Rearrange the formula: sine*hypotenuse = opposite sine 25 degrees*150 = 63.39273926 feet Height of kite above the ground: 63.39273926+4.5 = 67.89273926 feet Therefore the kite is 68 feet above the ground to the nearest foot
The tail causes drag and keeps the kite stable. By pulling down, on the part of the kite it is attached to, it keeps it orientated upright and more stable.The longer the tail, the more drag. A short tail, may not be enough in a strong wind to stabilise the kite. A tail that is too long, may cause difficulties in getting it off the ground in a light wind.
The tail causes drag and keeps the kite stable. By pulling down, on the part of the kite it is attached to, it keeps it orientated upright and more stable.The longer the tail, the more drag. A short tail, may not be enough in a strong wind to stabilise the kite. A tail that is too long, may cause difficulties in getting it off the ground in a light wind.