A Rigidbody OverNode is used to control an object's position through physics simulation, by interacting with the Unity Rigidbody Component.
Note: Adding a Rigidbody component to an object will put its motion under the control of Unity's physics engine.
This OverNode is used to expose certain parameters and attributes of a given input Unity Rigidbody Component, which are:
| Name | Type | Description |
|---|---|---|
This OverNode adds a force to the Rigidbody.
Force is applied along the direction of the force vector. Specifying the ForceMode mode allows the type of force to be changed to an Acceleration, Impulse or Velocity Change.
The Type parameter allows for the application of the force relative to its coordinate system or not.
This Flow OverNode accepts the following input data:
This OverNode applies a force to a Rigidbody that simulates explosion effects.
The explosion is modelled as a sphere with a certain centre position and radius in world space.
Force is applied along the direction of the force vector. Specifying the ForceMode mode allows the type of force to be changed to an Acceleration, Impulse or Velocity Change.
This Flow OverNode accepts the following input data:
This OverNode adds torque to the Rigidbody.
Force can be applied only to an active Rigidbody. If a GameObject is inactive, AddTorque has no effect.
The Type parameter allows for the application of the force relative to its coordinate system or not.
This Flow OverNode accepts the following input data:
This OverNode moves the kinematic Rigidbody towards a given position.
This Flow OverNode accepts the following input data:
This OverNode rotates the Rigidbody to rotation.
This Flow OverNode accepts the following input data:
This OverNode is used to modify an existing Rigibody Component, by setting its gravity flag. Once this flag is enabled, the Rigidbody will be affected by gravity, otherwise, it will behave as if in outer space.
This Flow OverNode accepts the following input data:
and produces the following output data:
This OverNode is used to modify an existing Rigibody Component, by setting its isKinematic value.
This OverNode is used to modify an existing Rigibody Component, by setting its velocity.
In most cases, you should not modify the velocity directly, as this can result in unrealistic behaviour, except when a sudden change in velocity is needed for gameplay purposes.
This Flow OverNode accepts the following input data:
and produces the following output data:
This OverNode is used to modify an existing Rigibody Component, by setting its angular velocity.
In most cases, you should not modify the angular velocity directly, as this can result in unrealistic behaviour, except when a sudden change in angular velocity is needed for gameplay purposes.
This Flow OverNode accepts the following input data:
and produces the following output data:
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
| Name | Type | Description |
|---|---|---|
Rigidbody
A reference of the input Unity Rigidbody Component
Force
Vector3
Vector describing the Force to be applied
Force Mode
Used to specify how to apply a Force
Type
Enum
Either World or Relative
Rigidbody
A reference of the input Unity Rigidbody Component
Force
Float
The force of the explosion
Force Mode
Used to specify how to apply a force
Radius
Float
Radius of the explosion
Upwards Modifier
Float
Adjustment to the apparent position of the explosion to make it seem to lift objects
Rigidbody
A reference of the input Unity Rigidbody Component
Torque
Vector3
Vector describing the Torque to be applied
Force Mode
Used to specify how to apply a force
Type
Enum
Either World or Relative
Rigidbody
A reference of the input Unity Rigidbody Component
Position
Vector3
Provides the new position for the Rigidbody
Rigidbody
A reference of the input Unity Rigidbody Component
Rotation
Quaternion
The new rotation for the Rigidbody
Rigidbody
A reference of the input Unity Rigidbody Component
Use Gravity
Boolean
Gravity value
Updated Component
A reference of the updated Unity Rigidbody Component
Rigidbody
A reference of the input Unity Rigidbody Component
Is Kinematic
bool
IsKinematic value
Updated Component
A reference of the updated Unity Rigidbody Component
Rigidbody
A reference of the input Unity Rigidbody Component
Velocity
Vector3
The velocity vector of the Rigidbody
Updated Component
A reference of the updated Unity Rigidbody Component
Rigidbody
A reference of the input Unity Rigidbody Component
Velocity
Vector3
The angular velocity vector of the Rigidbody
Updated Component
A reference of the updated Unity Rigidbody Component
Ref
A reference of the input Unity Rigidbody Component
Position
Vector3
The world space position of the Rigidbody
Rotation
Quaternion
The world space rotation of the Rigidbody
Center of Mass
Vector3
The center of mass relative to the Transform's origin.
Velocity
Vector3
The velocity vector of the Rigidbody. It represents the rate of change of Rigidbody position.
Ang. Velocity
Vector3
The angular velocity vector of the Rigidbody is measured in radians per second.
Automatic Center Of Mass
bool
Whether or not to calculate the center of mass automatically.
Automatic Tensor
bool
Whether or not to calculate the inertia tensor automatically.
Use Gravity
bool
Controls whether gravity affects this rigidbody.
Is Kinematic
bool
Controls whether physics affects the rigidbody.
