This Valentine's Day Alphabet Recognition Bingo BUNDLE is the perfect resource for practicing uppercase and lowercase letter fluency with young learners. Whether you’re teaching in person, online, or in a hybrid setting, this bundle gives you both printable and digital options to make learning fun, interactive, and stress-free.
Students will love playing this seasonal Bingo game while improving their alphabet knowledge. Teachers can call out letters, and students cover the matching space on their Bingo card. In the digital version, learners drag and drop hearts onto their boards for an engaging, no-prep activity that’s perfect for distance learning or interactive whiteboards.
Features Teachers Love
- Easy-to-read fonts designed for early readers
- Uppercase and lowercase letters displayed side by side
- Plays just like traditional Bingo — simple and intuitive
- Printable and reusable boards (laminate for durability)
- Digital Google Slides™ version for interactive play
What’s Included
- 25 Printable Alphabet Bingo boards
- Printable teacher calling cards for all letters
- 25 Digital Google Slides™ Bingo boards with drag-and-drop hearts
Perfect For Teachers Searching For:
- Valentine’s Day alphabet games
- Letter recognition activities for kindergarten
- Printable and digital literacy centers
- Holiday alphabet fluency practice
- Uppercase and lowercase matching games
- Fun phonics activities for February
Pair It With This Resource
For more February-themed literacy practice, pair this Bingo bundle with my Valentine’s Day CVC Words Mystery Picture Boom Cards™ from Hot Chocolate Teachables. This complementary activity focuses on short vowel sounds and decoding skills, making it a great partner resource for building phonics fluency.
Also Available on TPT
You can also purchase this resource on Teachers Pay Teachers: Valentine’s Day Alphabet Fluency Bingo Game BUNDLE | Print + Digital . The TPT version includes the same printable and digital game boards, teacher calling cards, and interactive options for classroom or distance learning.