Pre‑Launch Prep
Ignition & Liftoff
Ascent & Manoeuvres
Stage & Fairing Separation
Payload & Post‑Launch
100

This is pumped into the rocket before launch and makes up most of its mass.

propellant (fuel)

100

This happens when thrust becomes greater than weight

Lift‑off

100

Rockets perform this rotation to orient themselves correctly after liftoff.

Roll

100

This protective shell is jettisoned once the rocket is out of the thick atmosphere

Fairing

100

The cargo the rocket is designed to carry.

Payload

200

Mission control must complete these to ensure all systems are functioning correctly.

final functionality checks

200

This famous sequence begins at T‑10 and counts down to zero.

Launch countdown

200

These two manoeuvres adjust the rocket’s direction to reach the correct orbital inclination.

Pitch and yaw

200

This happens when a rocket’s lower stage runs out of fuel.

Stage separation

200

This occurs when the payload detaches from the upper stage.

Payload separation?

300

This must be granted by mission control before ignition can begin

launch permission

300

These engines fire first to begin the launch.

The main engines

300

The reason rockets change their inclination during ascent

Reaching the desired orbit

300

This is the moment when the rocket sheds unnecessary mass to improve efficiency.

Fairing separation

300

This burn is performed to reduce space debris after the mission

Deorbit burn

400

Simulations and practice countdowns are done for this reason.

Preparing the team for every stage of the launch sequence

400

This structure must be cleared before the rocket begins its ascent.

The launch tower

400

During ascent, rockets travel through this part of the atmosphere, causing intense heat and pressure.

Earth’s thickest air

400

This stage places the payload into orbit.

The second stage

400

This system must be functioning to track the payload after separation

Communication systems

500

These environmental factors must be safe before a rocket can launch.

Weather conditions

500

This variable must be checked to ensure the rocket has a clear path upward.

Flight‑path clearance

500

As the rocket goes up, it has to steer a little so it doesn’t drift the wrong way. These tiny turns help keep it on the right path to space.

Steering to stay on course

500

This variable must be checked to ensure the rocket can safely separate stages without collision.

Structural integrity

500

This factor must be checked to ensure astronauts are physically prepared for launch.

Crew health and readiness

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