Our next give away is from Push the Envelope custom stationary designs.
Caroline, the talented women behind Push the Envelope, used to be a designer for the music industry in LA. Now she is a work-at-home mother of four in Virginia, specializing in custom party invitations, announcements & graphic notes, stickers & notepads.
Check out these adorable calling cards.
One lucky commenter will get their choice of a set of 20 cards in one of the following custom designs:
or the multi-choice (which Caroline was so sweet to send to me as a baby gift! See my girls names?)
Please check out the Push the Envelope website for some really great stationary designs, and then leave a comment here with your choice of card design.
Comments will be closed on Sunday, April 24 at midnight.
I'm loving the chevron cards! Beautiful!
I loooove the chevron!!
Love the Chevron
AHH I'm in love with the light blue and pink chevron!!
I really like the multi cards!
First of all, how cool/adorable and cute are the home portraits?! I love. But, card wise, I love the paisley power! Everything is absolutely adorable though!!
Love them all, but the Baroque is my favorite! Thanks!
I would love to have the chevron cards!
I'm a chevron kind of girl, so I have to go with those!
Love them all…thanks for the giveaway!!
I'm a chevron kind of girl, so I have to go with those!
Love them all…thanks for the giveaway!!
love the chevron print
love the chevron!
incredibly cute! never get tired of chevron
rebekahh@intgroup.com
I love the chevron cards!
Love the Baroque print. What a great group of stationery. I might need to order the round return address labels.
love the calling cards and the multi choice thankyou notes!
Thanks so much for the give away!I LOVE the baroque print!
oooooooh, how beautiful! there is nothing like a handwriten note, and doign it on these beautiful cards would make it that much MORE special!
I'd like the multichoice thank you notes!
multi-choice thank you notes, please!
I love the calling Cards! How FUN!
The chevron. In light blue, or pink? I can't decide! :)
I love the Baroque print! They are cute yet sophisticated! :)
I love love love the geometric calling cards in pink!! BEAUTIFUL!
I want the Baroque print! I think I am totally going to have to get the geometric print calling cards.
I love the chevron print!!!!
wife2tue@yahoo.com
I really love the paisley power cards.
Just one of the crowd- love the chervon print!
well of course they're allll fabuloso, but I like the chevron cards best! Thanks for sharing Jenny–I'm definitely going to have to go peruse her site for a little longer!
Don't know how I would pick. Maybe the chevron, but they are all adorable.
Elizabeth L
eal20@yahoo.com
I love the "calling cards". In fact, I think I'll order some (if I don't win)!
Thanks so much
guoweigang Water clocks did not depend on the observation of the sky or the thomas sabo sun. The earliest water clock was discovered in the tomb of Amenhotep I who was buried around thomas sabo online shop deutschland 1500 B.C. Greeks called them clepsydras ; they were stone boxes with sloped sides that allowed water to drip thomas sabo anhänger at an almost unceasing rate from a small hole in the bottom.Other clepsydras were cylinders or thomas sabo charm club anhänger bowl formed engineered to slowly fill up with water coming in at a near sustained pace. Markings on the thomas sabo anhänger günstig inside of the bowl marked the passage of the hours. Though this was employed primarily angebote thomas sabo anhänger at night, it is thought they were utilized in the day hours too. A metal bowl with a hole the bottom was placed in a bigger bowl crammed thomas sabo charm with water.It would fill and then sink in a certain quantity of time.Since water flow was not exactly predictable sabo charms and difficult to control the flow accurately, timepieces that depended on water were very inadequate. People sabo charm were drawn to develop more accurate ways of measuring and telling time.The development of quartz crystal clocks and timepiecesthomas sabo anhänger sale depended on the crystal size, shape, and temperature to create a frequency.