If you pros have tips and tricks on how to improve next time, I’m glad to hear it. (Like, if you see that I have comited a sin)
If it helps, think of the water first like a perfect mirror. If it’s a perfectly flat mirror then it would look like there’s another duck upside down below this duck. If you want to be extra precise, it’s mirrored across the plane where the duck meets the water.
But water isn’t usually perfectly flat mirror, and here you have little nods to there being ripples or waves. The choppier the wave, the less it reflects, so you’ll often see people break up the mirrored reflection at the choppiest parts of the wave. Similarly, waves aren’t flat, depending on the part of the wave/ripple you’re at, you’d be reflecting higher or lower as though the mirror is tilted to the angle of the surface.
The last tricky part is that most surfaces are more reflective at a glancing angle than head on, so often reflections are stronger further in the distance and closer up you’ll just be looking down into the water. On a more technical note, you can look up the index of refraction to learn more about this phenomenon.
To tie it all together, this is why those long shots of sunsets have a sun reflection that is really long (much longer than the size of the sun in the distance) - because it’s at a distance it’s a strong reflection and because all the waves are reflecting at different angles you’re getting all the glancing reflections of the sun on the top of each wave. It typically being dark at sunset also means the bright sun reflection blooms to make it look brighter and larger than just the tip of the wave.
Conversely, in water sports like wakeboarding, you might not see much of a reflection at all because all the water is choppy and non-reflective.
Looking down into a pond, you might not see a reflection either because the angle is too steep to reflect.
In short, yes, in this case the reflection should probably be roughly the same size.
I tested with the reflection of things on my cook-top while making pancakes (TMI) and the reflections were definetly shorter the more I looked from above. I believe it is because the things in the reflection are “further away” hence smaller. The reflection of my duck is definetly too small tho, I’ll be more carefull next time :D
Thanks for the explanation it really helped wraping my head around the thing.
Oh! Awesome experiment! Yes, they’re shorter because of perspective (foreshortening). With a mirror surface it’s better to think of a duplicate of the object flipped across the mirror plane, then you can apply the same tricks to draw in perspective, which may make it look shorter.
In your example here, since we’re viewing from the side the perspective is not going to factor in as much, so we land at “roughly the same size”