14. If u is a vector with magnitude of 18 and direction angle of 80º and...
14. If u is a vector with magnitude of 18 and direction angle of 80° and V is a vector with magnitude of 24 and direction angle of 150°, find the magnitude and direction angle of utv. 15. If | V2 and 9 = 300°, write V in component form. 16. An airplane is heading north at an airspeed of 400 km/hr, but there is a wind blowing from the southwest at 60 km/hr. How many degrees off course will...
15. If V = 2 and 0 = 300°, write v in component form. 16.) An airplane is heading north at an airspeed of 400 km/hr, but there is a wind blowing from the southwest at 60 km/hr. How many degrees off course will the plane end up flying?
Question 19 > An airplane is heading north at an airspeed of 800 km/hr, but there is a wind blowing from the southeast at 40 km/hr. The plane will end up flying degrees off course The plane's speed relative to the ground will be km/hr
Question 19 < An airplane is heading north at an airspeed of 800 km/hr, but there is a wind blowing from the southeast at 40 km/hr. The plane will end up flying degrees off course km/hr The plane's speed relative to the ground will be Question 20 > Calculate ( – 4 – 2:)? Give your answer in a + bi form
Question 12 > Find all complex cube roots of 1-i. Give your answers in a + bi form, separated by commas. *** round to 2 decimal places Question Help: Video Written Example Message instructor Submit Question x Question 11 > Score on last try: 0 of 1 pts. See Details for more. > Next question You can retry this question below Calculate (2 + i). Give your answer in a + bi form 512 + i I x Question 10...
The magnitude of a velocity vector is called speed. Suppose that a wind is blowing from the direction N45°W at a speed of 50 km/h. (This means that the direction from which the wind blows is 45° west of the northerly direction.) A pilot is steering a plane in the direction N60°E at an airspeed (speed in still air) of 100 km/h. The true course, or track, of the plane is the direction of the resultant of the velocity vectors...
The heading of an object is the angle, measured clockwise from due north, to the vector representing the intended path of the object. Example 4 A plane is flying with an airspeed of 185 miles per hour and a heading of 12o* . The wind currents are running at a constant 32 miles per hour at 165 clockwise from due north Find the true course and ground speed of the plane? The heading of an object is the angle, measured...
2. An airplane is heading due north at an airspeed of 950 km/h, but there is a constant wind blowing from the northeast at 100 km/h. We will use vectors to work out how far off course the plane is blown, and what its ground speed is. (a) Write down a vector, p, that represents the intended flight path of the plane in one hou. (b) Write down a vector, w, that represents the movement of a particle caught in...
The magnitude of a velocity vector is called speed. Suppose that a wind is blowing from the direction N45°W at a speed of 50 km/h. (This means that the direction from which the wind blows is 45° west of the northerly direction.) A pilot is steering a plane in the direction N60°E at an airspeed (speed in still air) of 150 km/h. The true course, or track, of the plane is the direction of the resultant of the velocity vectors...
An airplane is heading due north at a constant height with an airspeed of 950 km/h, but there is a constant wind blowing from the northeast at 100 km/h. We will use two-dimensional vectors to work out how far off course the plane is blown, and what its ground speed is. (a) Write down a vector, p, that represents the intended flight path of the plane in one hour. (b) Write down a vector, w, that represents the movement of...