What I'm trying to do is increase my viewing distance so that i can see objects beyond 10000f I've included a picture to help you understand what i mean, i want to set my viewing distance to, lets say 50000f so that i can see more objects which are farther away.

below is my camera code

```
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Input;
using Microsoft.Xna.Framework.Content;
using Microsoft.Xna.Framework.GamerServices;
using Microsoft.Xna.Framework.Media;
using Microsoft.Xna.Framework.Graphics;
namespace test1
{
public class ArcBallCamera
{
//rotation
public Matrix rotation = Matrix.Identity;
//camera pos.
public Vector3 position = Vector3.Zero;
// Simply feed this camera the position of whatever you want its target to be
public Vector3 targetPosition = Vector3.Zero;
public Matrix viewMatrix = Matrix.Identity;
public Matrix projectionMatrix = Matrix.Identity;
private float zoom = 8000.0f;
public float Zoom
{
get
{
return zoom;
}
set
{ // Keep zoom within range
zoom = MathHelper.Clamp(value, zoomMin, zoomMax);
}
}
private float horizontalAngle = MathHelper.PiOver2;
public float HorizontalAngle
{
get
{
return horizontalAngle;
}
set
{ // Keep horizontalAngle between -pi and pi.
horizontalAngle = value % MathHelper.Pi;
}
}
private float verticalAngle = MathHelper.PiOver2;
public float VerticalAngle
{
get
{
return verticalAngle;
}
set
{ // Keep vertical angle within tolerances
verticalAngle = MathHelper.Clamp(value, verticalAngleMin, verticalAngleMax);
}
}
private const float verticalAngleMin = 0.01f;
private const float verticalAngleMax = MathHelper.Pi - 0.01f;
private const float zoomMin = 0.1f;
private const float zoomMax = 8000.0f;
// FOV is in radians
// screenWidth and screenHeight are pixel values. They're floats because we need to divide them to get an aspect ratio.
public ArcBallCamera(float FOV, float screenWidth, float screenHeight, float nearPlane, float farPlane)
{
if (screenHeight < float.Epsilon)
throw new Exception("screenHeight cannot be zero or a negative value");
if (screenWidth < float.Epsilon)
throw new Exception("screenWidth cannot be zero or a negative value");
if (nearPlane < 0.1f)
throw new Exception("nearPlane must be greater than 0.1");
this.projectionMatrix = Matrix.CreatePerspectiveFieldOfView(MathHelper.ToRadians(FOV), screenWidth / screenHeight,
nearPlane, farPlane);
}
public void Update(GameTime gameTime)
{
// Start with an initial offset
Vector3 cameraPosition = new Vector3(0.0f, zoom, 0.0f);
// Rotate vertically
cameraPosition = Vector3.Transform(cameraPosition, Matrix.CreateRotationX(verticalAngle));
// Rotate horizontally
cameraPosition = Vector3.Transform(cameraPosition, Matrix.CreateRotationY(horizontalAngle));
position = cameraPosition + targetPosition;
this.LookAt(targetPosition);
// Compute view matrix
this.viewMatrix = Matrix.CreateLookAt(this.position,
this.position + this.rotation.Forward,
this.rotation.Up);
}
/// <summary>
/// Points camera in direction of any position.
/// </summary>
/// <param name="targetPos">Target position for camera to face.</param>
public void LookAt(Vector3 targetPos)
{
Vector3 newForward = targetPos - this.position;
newForward.Normalize();
this.rotation.Forward = newForward;
Vector3 referenceVector = Vector3.UnitY;
// On the slim chance that the camera is pointer perfectly parallel with the Y Axis, we cannot
// use cross product with a parallel axis, so we change the reference vector to the forward axis (Z).
if (this.rotation.Forward.Y == referenceVector.Y || this.rotation.Forward.Y == -referenceVector.Y)
{
referenceVector = Vector3.UnitZ;
}
this.rotation.Right = Vector3.Cross(this.rotation.Forward, referenceVector);
this.rotation.Up = Vector3.Cross(this.rotation.Right, this.rotation.Forward);
}
public Matrix[] SetupEffectDefaults(Model myModel)
{
Matrix[] absoluteTransforms = new Matrix[myModel.Bones.Count];
myModel.CopyAbsoluteBoneTransformsTo(absoluteTransforms);
foreach (ModelMesh mesh in myModel.Meshes)
{
foreach (BasicEffect effect in mesh.Effects)
{
effect.EnableDefaultLighting();
effect.Projection = projectionMatrix;
effect.View = viewMatrix;
}
}
return absoluteTransforms;
}
}
}
```