Question A projectile was fired from the originOof the Cartesian coordinates on the edge of a cliff with an initial velocityV0​=60i+175jThe projectile rises first and then falls into the sea at pointP, as shown in the following sketch. If you know that the projectile has a time of flight of 40 seconds, that air resistance is neglected, and that the gravitational acceleration isg=10 m/s2: 1- Calculate the firing angleα. 2. Prove that the parametric equations for the projectile motion are: \[ x(t)=60 t ; y(t)=-\frac{1}{2} g t^{2}+175 t \] 3. Deduce: a- The distanceDbetween the falling pointPand the cliff. b- The heightHof the cliff from the surface of the sea.

Transcribed Image Text:

Question A projectile was fired from the origin O of the Cartesian coordinates on the edge of a cliff with an initial velocity = 60 i+ 175 j The projectile rises first and then falls into the sea at point P, as shown in the following sketch. If you know that the projectile has a time of flight of 40 seconds, that air resistance is neglected, and that the gravitational acceleration is g = 10 m/s²: 1- Calculate the firing angle a. 2- Prove that the parametric equations for the projectile motion are: x(t)=60t; y(t)= gt² +175t 2 3- Deduce: a- The distance D between the falling point P and the cliff. b- The height H of the cliff from the surface of the sea. H 1° α D→ X