DiNoahsaur
Smash Rookie
- Joined
- Apr 15, 2015
- Messages
- 19
Hey everyone,
Hopefully this thread will compile the Peach community's knowledge on how to maximize Peach's "safe" attack options.
I've been having some trouble figuring out the right way to fully capitalize on Peach's amazing shield pressure. I think a lot of it comes down to my confusion regarding the way each of her attacks affect my opponents positions when shielding.
Now, I know "safe" is a very loaded term--and "safety" isn't a 100% guaranteed result on even her side-b. What I am looking to explore is how to manipulate Peach's momentum and direction, when attacking an opponent's shield, to create the most optimal spacing between her and the opponent.
Some questions I hope this thread can answer are:
--When are opponent's knocked back when shielding vs. remaining in place?
--How does retreating momentum vs advancing moment affect this?
--Which attacks produce significant space between you and the opponent.... when? Why?
I feel discussing general shield physics might be helpful to start off the conversation....
Hopefully this thread will compile the Peach community's knowledge on how to maximize Peach's "safe" attack options.
I've been having some trouble figuring out the right way to fully capitalize on Peach's amazing shield pressure. I think a lot of it comes down to my confusion regarding the way each of her attacks affect my opponents positions when shielding.
Now, I know "safe" is a very loaded term--and "safety" isn't a 100% guaranteed result on even her side-b. What I am looking to explore is how to manipulate Peach's momentum and direction, when attacking an opponent's shield, to create the most optimal spacing between her and the opponent.
Some questions I hope this thread can answer are:
--When are opponent's knocked back when shielding vs. remaining in place?
--How does retreating momentum vs advancing moment affect this?
--Which attacks produce significant space between you and the opponent.... when? Why?
I feel discussing general shield physics might be helpful to start off the conversation....
Last edited: