Beanish is right, you should multiply by GameTime if you want smoothness. Physics is an overkill if you only want your animation to look smooth.

The best way I've found to do animation is by using position interpolation, **for this to work you have to know the initial (you already know this) and final position of the image.**

If you want to move from A to B in, say, 2 seconds, you can use the following code.

```
Vector2 a = new Vector2(0, 0);
Vector2 b = new Vector2(0, 100);
float elapsedTime = 0;
float duration = 2.0;
public override void Update(GameTime gameTime)
{
float dt = (float)gameTime.ElapsedGameTime.TotalSeconds;
elapsedTime += dt;
if (elapsedTime > 1)
elapsedTime = 1;
float param = elapsedTime / duration;
pos = Vector2.Lerp(a, b, param);
}
```

The best thing about using this approach is that you can now use "easing" to make you animation look really really nice.

To do this just add a Power operation to the interpolator parameter:

```
pos = Vector2.Lerp(a, b, (float)Math.Pow(param /2.0, 0.5));
```

This will make you image slow down as it arrives to B. You can play with the exponent value (0.5) to get different results, try 2.0 for example.

Another important thing is that your image will always stop at B. If you use the Euler integration approach (your approach, adding a velocity each frame) you might have some trouble making the image stop at the right position (aka B) and it gets even worse when using 2 or 3 dimesions.

To know more about easing, check Robert Penner's Easing Equations.