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To determine the vertical component of the velocity of an aircraft taking off at a certain angle, we need to use trigonometry. The vertical component can be calculated by multiplying the total velocity by the sine of the takeoff angle.

Given: Takeoff angle (θ) = 30 degrees Total velocity (V) = 500 km/hr

To find the vertical component (V_vertical), we can use the following formula:

V_vertical = V * sin(θ)

Let's substitute the values into the formula and calculate the result:

V_vertical = 500 km/hr * sin(30 degrees)

To perform the calculation, we need to convert the angle from degrees to radians because the trigonometric functions in most programming languages operate on radians.

1 degree = π/180 radians

30 degrees = (30 * π)/180 radians = π/6 radians

V_vertical = 500 km/hr * sin(π/6)

Using the approximate value of sin(π/6) = 0.5, we have:

V_vertical = 500 km/hr * 0.5 V_vertical = 250 km/hr

Therefore, the vertical component of the velocity of the aircraft will be 250 km/hr.

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