here,
theta = 37 degree
initial speed of plane , u = 250 m/s
let the time taken be t
for vertical direction
h = u * sin(theta) * t + 0.5 * g * t^2
600 = 250 * sin(37) * t + 0.5 * 9.81 * t^2
solving for t
t = 3.57 s
the horizontal distance travelled , x = u * cos(theta) * t
x = 250 * cos(37) * 3.57 m
x = 720 m
the horizontal distance travelled is B) 720 m
E. 90 31° 23. A rescue airplane is diving at an angle of 370 below the...
A. A+B-C O B. A-, B+C 0 C. A-B-C-0 D. A+B+C E. None of these equations are correct. 22. The components of a vector A are Ax -10 units and Ay -6 units. What angle does this vector make with the positive x axis? A. 31° B. -31° C. 1809 -31° D. 1800 + 31° E. 900-319 23. A rescue airplane is diving at an angle of 379 below the horizontal with a speed of 250 m/s. It releases a...
An airplane with a speed of 84.8 m/s is climbing upward at an angle of 60.7 ° with respect to the horizontal. When the plane's altitude is 625 m, the pilot releases a package. (a) Calculate the distance along the ground, measured from a point directly beneath the point of release, to where the package hits the earth. (b) Relative to the ground, determine the angle of the velocity vector of the package just before impact. a) 883.95 m is...
An airplane with a speed of 91.2 m/s is climbing upward at an angle of 65.1 ° with respect to the horizontal. When the plane's altitude is 721 m, the pilot releases a package. (a) Calculate the distance along the ground, measured from a point directly beneath the point of release, to where the package hits the earth. (b) Relative to the ground, determine the angle of the velocity vector of the package just before impact.
An airplane with a speed of 89.9 m/s is climbing upward at an angle of 50.1 ° with respect to the horizontal. When the plane's altitude is 634 m, the pilot releases a package. (a) Calculate the distance along the ground, measured from a point directly beneath the point of release, to where the package hits the earth. (b) Relative to the ground, determine the angle of the velocity vector of the package just before impact.
An airplane with a speed of 83.8 m/s is climbing upward at an angle of 51.5 ° with respect to the horizontal. When the plane's altitude is 910 m, the pilot releases a package. (a) Calculate the distance along the ground, measured from a point directly beneath the point of release, to where the package hits the earth. (b) Relative to the ground, determine the angle of the velocity vector of the package just before impact.
An airplane with a speed of 95.4 m/s is climbing upward at an angle of 57.9 ° with respect to the horizontal. When the plane's altitude is 999 m, the pilot releases a package. (a) Calculate the distance along the ground, measured from a point directly beneath the point of release, to where the package hits the earth. (b) Relative to the ground, determine the angle of the velocity vector of the package just before impact.
An airplane with a speed of 76.7 m/s is climbing upward at an angle of 63.3 ° with respect to the horizontal. When the plane's altitude is 766 m, the pilot releases a package. (a) Calculate the distance along the ground, measured from a point directly beneath the point of release, to where the package hits the earth. (b) Relative to the ground, determine the angle of the velocity vector of the package just before impact.
An airplane with a speed of 72.1 m/s is climbing upward at an angle of 45.0 ° with respect to the horizontal. When the plane's altitude is 529 m, the pilot releases a package. (a) Calculate the distance along the ground, measured from a point directly beneath the point of release, to where the package hits the earth. (b) Relative to the ground, determine the angle of the velocity vector of the package just before impact. (Write on paper)