An aircraft flies at a constant altitude (with respect to sea level) over the South Rim of the Grand Canyon. Consider a coordinate system such that the positive x axis points to the east, and the positive y axis points north. The aircraft's initial position and velocity are 1350 m at an angle of 145^o and 60.0 m/s at an angle of 55.0^o where both angles are measured counterclockwise with respect to the positive x axis. The aircraft's acceleration is 4.0 m/s² at an angle of 195^o with respect to the positive x axis. 

(a) What is the velocity of the aircraft after 7.50 s have elapsed? 

(b) What is the position vector of the aircraft after 7.50 s have elapsed?  

An aircraft flies at constant altitude (with respect to sea level) over the South Rim of the Grand Canyon (Fig. 3.40, page 83). Consider a coordinate system such that the positive x axis points to the east, and the positive y axis points north. The aircraft's initial position and velocity are  at an angle of and   at an angle of where both angles are measured counterclockwise with respect to the positive x axis. The aircraft's acceleration is at an angle of with respect to the positive x axis.

a. What is the velocity of the aircraft after have elapsed?

b. What is the position vector of the aircraft after have elapsed?

An aircraft flies at a constant altitude(with respect to sea level) over the south rim of the grand canyon. Consider a coordinate system such that the positive x-axis points to the east and the positive y-axis points north. The aircraft is initially at the origin. Its velocity is 60 m/s at an angle of 55° with the x-axis and the acceleration is 4 m/s² at an angle of 195° with the x-axis. Both angles are measured in the counterclockwise direction. What is the velocity of the aircraft after 7.5 seconds have elapsed?

A 52.8-cm diameter disk rotates with a constant angularacceleration of 3.00 rad/s2. It starts from rest at t = 0, and aline drawn from the center of the disk to a point P on the rim ofthe disk makes an angle of 57.3° with the positive x-axis at thistime.
(a) Find the angular speed of the wheel at t = 2.30 s.
____rad/s

(b) Find the linear velocity and tangential acceleration of P at t= 2.30 s.
linear velocity _____ m/s
tangential acceleration ______ m/s2

(c) Find the position of P (in degrees, with respect to thepositive x-axis) at t = 2.30s.
________°