An airplane flies above the Earth at constant height h and constant speed v. The plane’s...

Consider an airplane flying at a constant speed of 900 km>h, 10 km above the ground....

Consider an airplane flying at a constant speed of 900 km>h, 10 km above the ground. (a) What is the plane’s downward acceleration? (b) Draw a free-body diagram for the airplane. (c) Why don’t people in the airplane feel weightless as astronauts do traveling 290 km higher up?

An airplane flies due north with an air speed of260 km/h . A steady wind at...

An airplane flies due north with an air speed of260 km/h . A steady wind at 65 km/h blows eastward. (Air speed is the speed relative to the air.) What is the plane’s ground speed (vpg)? If the pilot wants to fly due north, what should his heading be?

An airplane releases a ball as it flies parallel to the ground at a height of...

An airplane releases a ball as it flies parallel to the ground at a height of 135 m as shown in the figure. If the ball lands on the ground exactly 135 m from the release point, calculate the speed v of the plane. Neglect any effects due to air resistance, and use g = 9.81 m/s2 for the acceleration due to gravity.

10. A supersonic airplane flies such that the relative speed of the air above the wings...

10. A supersonic airplane flies such that the relative speed of the air above the wings it is 400 m / s. The relative speed of the air below the wings is 360 m / s. Determine the difference in pressures acting on the part bottom and top of wings. Assume the heights at the top and bottom of the wings with respect to the Earth's surface are approximately the same.

You drop a package from an airplane flying at a constant speed in a straight horizontal...

You drop a package from an airplane flying at a constant speed in a straight horizontal line. From the same height and time, one red ball is dropped and another blue ball is fired horizontally. The air resistance can be neglected. Which will hit the ground first, the package, the red ball, or the blue ball? Include an explanation!

A ball rolls off a table of height h at horizontal speed v. The ball moves...

A ball rolls off a table of height h at horizontal speed v. The ball moves as a projectile until it hits the floor. Assume that air resistance is negligible. A) Which quantity remains constant while the ball is executing its projectile motion? (more than one answer may be correct) 1. its horizontal speed 2. its vertical speed 3. its vertical acceleration B) What is the magnitude of the velocity of the ball just as it reaches the floor (assuming...

Consider a pebble of mass m=34 g launched from initial height h=7.1 m with speed v=5.1...

Consider a pebble of mass m=34 g launched from initial height h=7.1 m with speed v=5.1 m/s at angle θ=42 degrees above the horizontal. Just before the pebble lands on the ground is has a speed v=10.2 m/s. What is the work done on the pebble an external force (wind? air drag?) Provide your answer in joules, use three significant figures.

1. An airplane is traveling 835 km/h in a direction 41.5 ∘ west of north PART...

1. An airplane is traveling 835 km/h in a direction 41.5 ∘ west of north PART A Find the components of the velocity vector in the northerly and westerly directions. Enter your answers using three significant figures separated by a comma. PART B How far north and how far west has the plane traveled after 4.00 h? Enter your answers using three significant figures separated by a comma. BOTH QUESTIONS NEED TWO ANSWERS. 2. A football is kicked at ground...

4. A pilot flying from Honolulu to California flies at an airspeed of 300.0 m/s (“airspeed”...

4. A pilot flying from Honolulu to California flies at an airspeed of 300.0 m/s (“airspeed” = airplane’s speed through the surrounding air) with her airplane pointed 70.0˚ to the east of north. However, the air itself is moving with a 50.0-m/s windspeed blowing due east. When the pilot adds together the two vectors of her airspeed and the windspeed, she gets her groundspeed: the airplane’s actual velocity relative to the ground below. (Even though these are called “speeds” by...

A student throws a water balloon with speed v0 from a height h = 1.64 m...

A student throws a water balloon with speed v0 from a height h = 1.64 m at an angle θ = 29° above the horizontal toward a target on the ground. The target is located a horizontal distance d = 8.5 m from the student’s feet. Assume that the balloon moves without air resistance. Use a Cartesian coordinate system with the origin at the balloon's initial position. Part (a) What is the position vector, Rtarget, that originates from the balloon's...