This is to tie in with a previous question >https://physics.stackexchange.com/questions/400341/the-suns-orbit-is-it-what-we-think?noredirect=1#comment897800_400341

Are gravitational waves cumulative  ? and if so how does this affect our galaxy and other astronomical bodies? Now i go to 'The Visualisation of Space-time Warping' Video, and imagine that the more 'Weight/Planets' the higher the gravitational force, Right?

https://www.youtube.com/watch?v=MTY1Kje0yLg

For example:

• Is the gravitational 'pull' of our solar system greater than that of our star alone?

For instance, would a wondering planet be more likely to come into our solar system rather than, a lone star of equal size and gravitational proportions to ours?

This is to tie in with a previous question >https://physics.stackexchange.com/questions/400341/the-suns-orbit-is-it-what-we-think?noredirect=1#comment897800_400341

Are gravitational waves cumulative? and if so how does this affect our galaxy and other astronomical bodies? Now I go to 'The Visualisation of Space-time Warping' Video, and imagine that the more 'Weight/Planets' the higher the gravitational force, Right?

https://www.youtube.com/watch?v=MTY1Kje0yLg

For example:

• Is the gravitational 'pull' of our solar system greater than that of our star alone?

For instance, would a wondering planet be more likely to come into our solar system rather than, a lone star of equal size and gravitational proportions to ours?

Or

Does the increase of gravitational waves in the area somehow reduce the gravitational effect on a passing body?