Difference between revisions of "Tutorial: Sputnik 1"

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(Ship design: mentioned use of cosmetic Communotron 16's)
(changed description of ascent to describe a gravity-turn)
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[[File:Sputnik-liftoff.png|400px|The vessel just after ignition]]
 
[[File:Sputnik-liftoff.png|400px|The vessel just after ignition]]
  
This phase is about getting out of the atmosphere as quickly as possible. The atmosphere creates drag which costs you fuel, so head straight up. Switch on RCS and SAS so you have better control over your rocket, hold shift to set your trottle to maximum, and ignite your first stage by pressing space.
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Before you start your flight, switch on RCS and SAS so you have better control over your rocket. Also, switch your nav-ball from surface-mode to orbit-mode by clicking on the dial above it (it should read "Orbit 174.5m/s").
  
While you ascend, keep the yellow heading indicator on the center of the nav-ball. Every degree of difference and every second costs you valuable altitude later.
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This phase is about getting out of the atmosphere as quickly as possible. The thick atmosphere around the ground creates drag which costs you fuel, so we will head straight up to get out of it.
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When you are ready, hold shift to set your throttle to maximum, and ignite your first stage by pressing space. Watch the nav-ball and keep your rocket pointed at the center for a perfectly vertical ascent. When the first stage burnt all its fuel, drop it and ignite the second stage using space (don't press space too often, or you drop your payload).  
  
When the first stage burnt all its fuel, drop it and ignite the second stage using space (don't press space too often, or you drop your payload). Keep heading straight up.
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=== Gravity-Turn ===
  
=== Going into an orbital flight path ===
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When you've reached an altitude of 10km (should be shortly after igniting the 2nd stage), air resistance becomes much less. Now we start to build up vertical speed so we get fast enough to get into a stable orbit. Do this by tipping your rocket into the direction of the yellow direction marker on the nav-ball (90° eastwards). While your rocket faces the direction marker, the marker will slowly fall towards the horizon. This is good. Keep your rocket pointed at the direction marker, so it slowly tips towards the horizontal plane.
[[File:Sputnik-ascend.png|400px|On the way to apoapsis]]
 
 
 
Switch to the orbital view and switch on the nav-ball so you can see your flight path and you apoapsis. Your goal now is to get your apoapsis to about 60km. We need some additional height because we aren't out of the atmosphere yet, so we will keep losing some height due to atmospheric drag. We also need to start building some horizontal velocity so that the gravity affects us less during our ascend to the apoapsis. So start tilting your rocket slightly (about 10° to 20°) to the east (90° on the nav-ball). When you have about half of your fuel left, kill your engines and hope you will reach an apoapsis above 45km.
 
  
 
=== Getting into a circular orbit ===
 
=== Getting into a circular orbit ===
 
[[File:Sputnik-orbit.png|200px|right|A circular orbit]]
 
[[File:Sputnik-orbit.png|200px|right|A circular orbit]]
 
[[File:Sputnik-apograde.png|400px|Accelerating horizontal to get on orbital speed]]
 
[[File:Sputnik-apograde.png|400px|Accelerating horizontal to get on orbital speed]]
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While you perform your gravity turn, switch to the map view so you can see your flight path and you apoapsis. You can switch on the nav-ball in orbital view by pressing the comma-key on the num-pad. Do this so you don't get off-course. Your goal now is to get your apoapsis to about 100km. We need some additional height because we aren't out of the atmosphere yet, so we will keep losing some height due to atmospheric drag.
  
 
When you reached your apoapsis, perform a prograde boost - orient your rocket horizontal in eastern direction and burn your remaining fuel to get into a circular orbit.  
 
When you reached your apoapsis, perform a prograde boost - orient your rocket horizontal in eastern direction and burn your remaining fuel to get into a circular orbit.  

Revision as of 17:19, 16 May 2013

SPACE AGE IS HERE - Man-made moon is circling world

Daily Express

Welcome to the first entry of learning Kerbal Space Program through re-enactment of historical key-missions of the spaceflight history of Earth. This tutorial assumes that you have completed the ingame tutorials so you know the basic controls.

Our first complete mission will be a recreation of the launch of Sputnik, the first man-made object to enter Earths orbit. The successful launch of Sputnik in 1957 by the soviet union was a shock to the whole world. While the space programs by different branches of the US military were mostly impressing with explosions on launchpads unplanned vehicular disassemblies, nobody expected the soviet union to be already so far ahead of them in rocket science. The beeping sound of Sputniks transmitter - strong enough to be picked up by amateur radios all around the world - was a wake up call for the west to finally start taking space exploration seriously. Now we are going to recreate this historical mission.

We will launch a satellite into space and bring it on a stable orbit. Space - for our purpose - starts at an altitude of 45km where the effect of the atmosphere affects objects much less and and thus allows them to enter a stable orbit for several days.

Ship design

For this mission we will recreate the Soviet R7 rocket. It consisted of a first stage consisting of four engines around a second stage of one and the payload on top.

Our vessel

We are going to add a battery bank to the payload, because the Stayputnik command module requires energy to stay operational. During the ascend the engines will generate energy, but after we have it in orbit it will have to work on its own energy reserves. By itself it can store 5 units of energy which keeps it operational for just over 2 minutes. Afterwards it just becomes debris. The Z-500 adds another 500 units of energy which is enough to keep it operational for several orbits. Using the Z-100 battery packs would be more mass-effective, but unfortunately they aren't as elegant to integrate into a rocket design.

When you want your satellite to look more like the real Sputnik, you could also add four radially-mounted Communotron 16 antennas to the round part of the Stayputnik so that they face backwards in a 45° angle. But keep in mind that they don't do anything but making the mission more difficult by adding additional mass and drag to your rocket.

Note that the aerodynamic nose cones are technically just for show, because the current version of KSP (0.18.4) doesn't model atmospheric drag correctly. Any part you add to your rocket will make the drag worse, there is no way to reduce drag by adding more parts. Feel free to omit them when you don't care about aesthetics.

Mission phases

Lift-Off

The vessel just after ignition

Before you start your flight, switch on RCS and SAS so you have better control over your rocket. Also, switch your nav-ball from surface-mode to orbit-mode by clicking on the dial above it (it should read "Orbit 174.5m/s").

This phase is about getting out of the atmosphere as quickly as possible. The thick atmosphere around the ground creates drag which costs you fuel, so we will head straight up to get out of it. When you are ready, hold shift to set your throttle to maximum, and ignite your first stage by pressing space. Watch the nav-ball and keep your rocket pointed at the center for a perfectly vertical ascent. When the first stage burnt all its fuel, drop it and ignite the second stage using space (don't press space too often, or you drop your payload).

Gravity-Turn

When you've reached an altitude of 10km (should be shortly after igniting the 2nd stage), air resistance becomes much less. Now we start to build up vertical speed so we get fast enough to get into a stable orbit. Do this by tipping your rocket into the direction of the yellow direction marker on the nav-ball (90° eastwards). While your rocket faces the direction marker, the marker will slowly fall towards the horizon. This is good. Keep your rocket pointed at the direction marker, so it slowly tips towards the horizontal plane.

Getting into a circular orbit

A circular orbit

Accelerating horizontal to get on orbital speed

While you perform your gravity turn, switch to the map view so you can see your flight path and you apoapsis. You can switch on the nav-ball in orbital view by pressing the comma-key on the num-pad. Do this so you don't get off-course. Your goal now is to get your apoapsis to about 100km. We need some additional height because we aren't out of the atmosphere yet, so we will keep losing some height due to atmospheric drag.

When you reached your apoapsis, perform a prograde boost - orient your rocket horizontal in eastern direction and burn your remaining fuel to get into a circular orbit. Should you run out of fuel, remember that you likely still have plenty of monopropellant left from the ascend. Press H to use it to accelerate forward. It doesn't do much, but it can be enough to give you the crucial last few m/s to get into a stable orbit.

Dropping the payload

Accelerating horizontal to get on orbital speed

After you are in orbit, drop your payload using space. Thanks to the powerful separator it will be blasted forward while the engine stage drifts behind. Congratulation, you just made space history. Go into time-warp and watch your satellite orbit Kerbin gracefully.

What next?

A scientific satellite in orbit

Unfortunately the satellite still has a limited lifetime due to energy use. To extend its life further it needs some kind of energy source in form of photovoltaic panels or a Radioisotope generator. When you have a sustainable energy supply, you can also add some scientific payload like accelerometer, barometer, thermometer or gravimeter. Note that all of this will increase weight and atmospheric drag, so you will need to add some more tanks to your rocket.

When unmanned satellites become boring, it's time to get to the next stage of space exploration: your first manned mission.