Why are we still reading about the Titanic?

The next big thing in technology, however, is not a new ship, but a new era of high-speed, high-resolution video cameras.

In a recent article in Popular Science, photographer Paul Gollner writes that his new high-end video camera, the SeaScan, can take images at 1,000 frames per second.

But this new camera can also capture an image at the speed of light, meaning it can be used for a whole range of other things besides photography.

This new speed and power is something that the Titanic industry has been working on for a while.

And the technology is coming to the public.

It’s already available in commercial cinemas, but it is still being used in a variety of other ways, from video production to advertising. 

In a way, the speed and capability of these new cameras are a huge advancement for the industry.

The speed of sound, for example, is far more than the speed at which we can hear a song in a stadium, and the ability to capture high-definition images at such an extremely high resolution means the technology can be put to work for all kinds of different purposes.

The video technology has been around for a long time, and we have seen a few very promising examples over the last few decades.

For example, it was in 2005 that the first video cameras were released by the company Xtreme Labs, and they were based on the concept of an infrared camera.

The idea was to capture images in infrared light and transmit them to a video camera that could capture images at the same time.

In that experiment, Xtresens captured images of the Titanic’s stern and engine decks at speed, which were used to show that the engine was very hot, and that the ship was sinking fast.

The technology has since become a standard part of the modern industry, as it has been used to record the footage of ships sinking on the ocean floor, for instance.

It is also used in high-altitude imaging, such as when you are looking down at an object or a scene and it suddenly starts moving.

And in some cases, it has even been used for aerial photography, for which a camera that is able to capture a 3-D image of an object can be a crucial component. 

But in the case of the new technology, it’s not just a camera.

It also includes a sensor, a camera lens, and a video processor.

These elements, in combination, allow for a video that can take pictures at a speed of 3,000 or even 2,000 fps.

And that is why these new high quality video cameras are going to be extremely important for the future of the film industry. 

These cameras will have a lot of potential to be used by other industries.

We are in the midst of a revolution in the film photography industry.

And it will be interesting to see what the industry will do when it comes to the development of new video cameras that are capable of capturing images at a higher resolution.