Difference between revisions of "Rover"

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m (Basics: some rewording)
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On small rovers, [[LT-2 Landing Strut]]s can be used to turn them back over when they end up upside down. Larger rovers on low-gravity worlds can help themself up by using [[Reaction Control System|RCS Thrusters]].
 
On small rovers, [[LT-2 Landing Strut]]s can be used to turn them back over when they end up upside down. Larger rovers on low-gravity worlds can help themself up by using [[Reaction Control System|RCS Thrusters]].
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To give rovers some more acceleration, RCS or even rocket thrusters can be added to them.
  
 
== Piloting rovers ==
 
== Piloting rovers ==
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When driving a rover, you have to be aware that the wheels are flimsy. When they experience strong impacts, they can get "broken". In this state they are still intact as a part, but do not work as a wheel anymore. The impact threshold for this to happen is a lot lower than the actual impact tolerance listed in the parts menu.
 
When driving a rover, you have to be aware that the wheels are flimsy. When they experience strong impacts, they can get "broken". In this state they are still intact as a part, but do not work as a wheel anymore. The impact threshold for this to happen is a lot lower than the actual impact tolerance listed in the parts menu.
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Wheels easily break when you let the rover jump, so it is recommended to reduce your speed when you driver over a hill. They can also break when you get faster than the maximum speed of the wheels, which can easily happen when you drive down a slope or use rocket thrusters to accelerate a rover to higher speeds than it could reach on its own.

Revision as of 13:38, 18 March 2013

Rovers are a new feature in Version 0.19. They are ground vehicles equipped with wheels, allowing them to travel around the surface of a planet.

Constructing rovers

Basics

To build a rover, you have to add wheels to your vehicle. You find these in the utility section. To allow the vehicle to drive straight, the wheels must be parallel. But they detect automatically in which direction they are facing, so you don't have to worry about placing them backwards.

Wheels require lots of Electricity to operate, so a rover should be equipped with generous energy supply in form of batteries and/or a sustainable energy sources in form of solar panels or radioisotope generators. Most players prefer solar panels due to their lower weight. But keep in mind that extended solar panels can easily be destroyed by atmospheric drag when on a fast-driving rover on a planet with atmosphere.

Advanced

To create a rover which is easy to control, you should try to build it relatively wide and with a low center of mass. This makes it much harder for the rover to topple over when driving fast curves, accelerating or breaking. Rovers are less stable when in low gravity, so a rover which is almost impossible to flip over on Kerbin might still require some care on Minmus, for example.

On small rovers, LT-2 Landing Struts can be used to turn them back over when they end up upside down. Larger rovers on low-gravity worlds can help themself up by using RCS Thrusters.

To give rovers some more acceleration, RCS or even rocket thrusters can be added to them.

Piloting rovers

Per default, a rover is controlled with the keys A, D, W and S. Unfortunately these keys also control vehicle rotation, which can make a rover completely uncontrolable on planets with low gravity, so many players map the rover controls to different keys in the settings menu.

When driving a rover, you have to be aware that the wheels are flimsy. When they experience strong impacts, they can get "broken". In this state they are still intact as a part, but do not work as a wheel anymore. The impact threshold for this to happen is a lot lower than the actual impact tolerance listed in the parts menu.

Wheels easily break when you let the rover jump, so it is recommended to reduce your speed when you driver over a hill. They can also break when you get faster than the maximum speed of the wheels, which can easily happen when you drive down a slope or use rocket thrusters to accelerate a rover to higher speeds than it could reach on its own.