After writing [this comment](https://astronomy.stackexchange.com/questions/28327/if-a-giant-object-would-approach-the-earth-would-earth-start-to-turn-faster-or#comment50228_28327) I thought of the 1933 novel [When Worlds Collide](https://en.wikipedia.org/wiki/When_Worlds_Collide) co-written by Philip Wylie and Edwin Balmer. 

>South African astronomer Sven Bronson discovers that a pair of rogue planets, Bronson Alpha and Bronson Beta, will soon enter the solar system. **In eight months, they will pass close enough to cause catastrophic damage to the Earth**. Sixteen months later, **after swinging around the Sun, Bronson Alpha will return to pulverize the Earth and leave. It is hoped that Bronson Beta will remain and assume a stable orbit.**

Wikipedia describes the catastrophic damage from the first pass in the novel as

>Tidal waves sweep inland at a height of 750 feet (230 m), volcanic eruptions and earthquakes add to the deadly toll, and the weather runs wild for more than two days. As a token of things to come, Bronson Alpha grazes and destroys the Moon.

Is it known if the authors drew upon the known science of the day to hypothesize what the effects of a planetary near approach would be like? I know it's nearly 100 years ago, but I'm curious how they came up with tidal waves, volcanos, earthquakes. The Moon grazing means the approach was less than 400,000 km, so if they'd assumed a mass for the planets, they could estimate quantitatively the forces on the Earth.

The fact that Bronson Alpha and Beta split up and have different, well described orbits suggests they'd certainly put some thought into the orbital mechanics, but I don't know if the orbits are realistic. Is it known to what level of detail they had pursued all of the physics involved in the catastrophic damage and planet trajectories?