1 files changed, 6 insertions, 11 deletions

diff --git a/doc/classes/VehicleWheel3D.xml b/doc/classes/VehicleWheel3D.xml
index fb0cb03d1c..951f4f8275 100644
--- a/doc/classes/VehicleWheel3D.xml
+++ b/doc/classes/VehicleWheel3D.xml
@@ -12,22 +12,19 @@
 	</tutorials>
 	<methods>
 		<method name="get_rpm" qualifiers="const">
-			<return type="float">
-			</return>
+			<return type="float" />
 			<description>
 				Returns the rotational speed of the wheel in revolutions per minute.
 			</description>
 		</method>
 		<method name="get_skidinfo" qualifiers="const">
-			<return type="float">
-			</return>
+			<return type="float" />
 			<description>
 				Returns a value between 0.0 and 1.0 that indicates whether this wheel is skidding. 0.0 is skidding (the wheel has lost grip, e.g. icy terrain), 1.0 means not skidding (the wheel has full grip, e.g. dry asphalt road).
 			</description>
 		</method>
 		<method name="is_in_contact" qualifiers="const">
-			<return type="bool">
-			</return>
+			<return type="bool" />
 			<description>
 				Returns [code]true[/code] if this wheel is in contact with a surface.
 			</description>
@@ -35,7 +32,7 @@
 	</methods>
 	<members>
 		<member name="brake" type="float" setter="set_brake" getter="get_brake" default="0.0">
-			Slows down the wheel by applying a braking force. The wheel is only slowed down if it is in contact with a surface. The force you need to apply to adequately slow down your vehicle depends on the [member RigidBody3D.mass] of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 30 range for hard braking.
+			Slows down the wheel by applying a braking force. The wheel is only slowed down if it is in contact with a surface. The force you need to apply to adequately slow down your vehicle depends on the [member RigidDynamicBody3D.mass] of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 30 range for hard braking.
 		</member>
 		<member name="damping_compression" type="float" setter="set_damping_compression" getter="get_damping_compression" default="0.83">
 			The damping applied to the spring when the spring is being compressed. This value should be between 0.0 (no damping) and 1.0. A value of 0.0 means the car will keep bouncing as the spring keeps its energy. A good value for this is around 0.3 for a normal car, 0.5 for a race car.
@@ -44,7 +41,7 @@
 			The damping applied to the spring when relaxing. This value should be between 0.0 (no damping) and 1.0. This value should always be slightly higher than the [member damping_compression] property. For a [member damping_compression] value of 0.3, try a relaxation value of 0.5.
 		</member>
 		<member name="engine_force" type="float" setter="set_engine_force" getter="get_engine_force" default="0.0">
-			Accelerates the wheel by applying an engine force. The wheel is only speed up if it is in contact with a surface. The [member RigidBody3D.mass] of the vehicle has an effect on the acceleration of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 50 range for acceleration.
+			Accelerates the wheel by applying an engine force. The wheel is only speed up if it is in contact with a surface. The [member RigidDynamicBody3D.mass] of the vehicle has an effect on the acceleration of the vehicle. For a vehicle with a mass set to 1000, try a value in the 25 - 50 range for acceleration.
 			[b]Note:[/b] The simulation does not take the effect of gears into account, you will need to add logic for this if you wish to simulate gears.
 			A negative value will result in the wheel reversing.
 		</member>
@@ -52,7 +49,7 @@
 			The steering angle for the wheel. Setting this to a non-zero value will result in the vehicle turning when it's moving.
 		</member>
 		<member name="suspension_max_force" type="float" setter="set_suspension_max_force" getter="get_suspension_max_force" default="6000.0">
-			The maximum force the spring can resist. This value should be higher than a quarter of the [member RigidBody3D.mass] of the [VehicleBody3D] or the spring will not carry the weight of the vehicle. Good results are often obtained by a value that is about 3× to 4× this number.
+			The maximum force the spring can resist. This value should be higher than a quarter of the [member RigidDynamicBody3D.mass] of the [VehicleBody3D] or the spring will not carry the weight of the vehicle. Good results are often obtained by a value that is about 3× to 4× this number.
 		</member>
 		<member name="suspension_stiffness" type="float" setter="set_suspension_stiffness" getter="get_suspension_stiffness" default="5.88">
 			This value defines the stiffness of the suspension. Use a value lower than 50 for an off-road car, a value between 50 and 100 for a race car and try something around 200 for something like a Formula 1 car.
@@ -80,6 +77,4 @@
 			This value affects the roll of your vehicle. If set to 1.0 for all wheels, your vehicle will be prone to rolling over, while a value of 0.0 will resist body roll.
 		</member>
 	</members>
-	<constants>
-	</constants>
 </class>