The total distance traveled by the projectile

The horizontal displacement when vertical displacement is zero

The time taken for the projectile to hit the ground

The vertical displacement when horizontal displacement is zero

To simplify the calculation of time

To use the range equation directly

To apply trigonometric identities

To solve for the final velocity

Cosine equals adjacent over hypotenuse

Cotangent equals adjacent over opposite

Tangent equals opposite over adjacent

Sine equals opposite over hypotenuse

Range equals time times initial velocity times sine of launch angle

Range equals initial velocity squared divided by time

Range equals time times initial velocity times cosine of launch angle

Range equals initial velocity times time

By setting the displacement in the Y direction to zero

By applying the double angle formula

By using the equation of motion for constant velocity

By using the initial velocity in the X direction

Range equals initial velocity squared times sine of launch angle

Range equals initial velocity squared divided by sine of launch angle

Range equals initial velocity times cosine of launch angle divided by gravity

Range equals initial velocity squared times sine of two times the launch angle divided by gravity

It simplifies the calculation of time

It allows the use of trigonometric identities

It helps in calculating the initial velocity

It is necessary for the final step in deriving the range equation