Taken from a Trial:
A missile is released from a plane flying horizontally at a height of 500 m and at a constant speed of 300m/s
(i) Show that the equation of the horizontal component of the subsequent motion of the missile is given by x=300t, where t is time and x is horizontal displacement of missile
(ii) A rocket launcher on the ground is immediately below the plane at the instant the missile is released. 2 secs later it is fired in an attempt to intercept the missile. It is fired in the same direction and in the same vertical plane as the missile. It is fired at an angle of 60 degrees to the horizontal at a speed of 100m/s. Determine how long after firing a possible interception occurs
I need working and a good explanation of working in answers please. I have a really short solution which i don't understand at all. please help ty
A missile is released from a plane flying horizontally at a height of 500 m and at a constant speed of 300m/s
(i) Show that the equation of the horizontal component of the subsequent motion of the missile is given by x=300t, where t is time and x is horizontal displacement of missile
(ii) A rocket launcher on the ground is immediately below the plane at the instant the missile is released. 2 secs later it is fired in an attempt to intercept the missile. It is fired in the same direction and in the same vertical plane as the missile. It is fired at an angle of 60 degrees to the horizontal at a speed of 100m/s. Determine how long after firing a possible interception occurs
I need working and a good explanation of working in answers please. I have a really short solution which i don't understand at all. please help ty
