You've probably been taught something like this: 
Do planets pull each other depending on mass? No.
If universal gravity underlies local gravitational/space/time and is uniform from all directions, we would indeed have additional ways of trying to understand how things work. Think of gravity as a superfluid drifting out towards the universe.
For example, visualize a sphere, the interior of which is coated with an illuminating substance radiating light from every direction. Let an orange represent the Earth and position a plum proportionally distanced. Let the mutual shadows cast upon each other's facing surfaces represent the absence of gravity as when light is blocked or atleast partially blocked, as if by a filter.
Let this "Shadow" represent a relative vacuum of universal gravitation and the inferacting forces between Earth and Moon become adversely different. Following the orbit of the moon, a partial vacuum exists that is inversely square to their distance, because gravity is pushing their mutual non-facing surfaces harder and the partial vacuum is causing their facing surfaces to become lighter. The Moon is not lifting the tides, like your textbooks say. If it did, it would be doing "work" (?) and that would demand orbital decay, which is not the case...
Perhaps I should visually show you, and mind you I am not an artist. It seems every teacher says that before visually showing something, heh.
The partial vacuum between the facing surfaces is steady in continuing its lifting effect beneath the moving shadow of te Moon. Twice a day we are a little bit lighter and on the non-facing surfaces everything is a little bit heavier. The Moon does not pull us. That makes sorta sense, but then looking deep into it I told myself "wtf?"
Take perhaps my first illustration, which illustrates only the gravity shadow cast by the moon and universal gravitation arriving normal everywhere pushing up the ocean bulge into the vacuum, and again not a great artist here, but bear with me;
My second illustration applies the geometry of light as an analogy and introduction to the compound way gravity might affect Earth and Moon perhaps causing a bigger bulge.
Concluding, mass does not directly affect somesort of "gravitational pull". Your textbooks may be wrong. Gravity is a superfluid, partially acts as if it were a light beam from an unknown unified source. It's not mass that is pulling objects together, because if that were so then the Moon would not move away from the Earth 4cm every year. I'll try to disprove your textbooks in future post. Perhaps breaking the law of conservation of mass (hint: The Big Bang plays a role in such topic)
Ciao.
-Usama S.
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