Paydirt (Rock Duo) will perform at Blumenhof Winery in Dutzow, MO on Sunday, May 22 from 2-5pm.
Looking for a good excuse to get together with your girlfriends to whine…and drink some wine? At this month’s “Women Who Wine” event you’ll be able to visit with friends, make a decorative grape cluster cork trivet to take home, and sip on some wine. Light appetizers will also be served. Cost: $19/person (or $16.15/person for Creek Club members) which includes one alcoholic or non-alcoholic beverage of your choice, light appetizers, and all the supplies you need to make your craft. Reservations and pre-payment are required for this event. Reserve your spot by calling(816) 858-5528.
Marissa Harms (Country/Pop) will perform at Blumenhof Winery in Dutzow, MO during Happy Hour on Friday, May 27 from 5-8pm.
Destination Z (Rock Band) will perform at Blumenhof Winery in Dutzow, MO on Saturday, May 28 from noon to 3pm.
Performer: Casey Reeves Genre: acoustic varietal Bio: Casey Reeves play and you'll feel at home. The Missouri-born singer-songwriter exudes ease and familiarity, whether playing a large venue with a full backing band, or a local hot-spot with just a stack of instruments and a looping station onstage. (Watching Reeves loop percussion, guitar, vocals, and harmonica live will leave you awestruck – and he makes it seem so easy!). That sense of familiarity equally describes his songwriting. Reeves has a way of turning phrases that, despite their originality, seem like something you've known before. There's a hint of nostalgia in his work; he has an evident appreciation for folk-rock contemporaries Wilco and The Avett Brothers, but also for late century folk standards like Bob Dylan and even the age-old hymns he grew up singing. His first solo album, In Between Oceans, was both a nod to his Midwestern roots and a forward-looking project, featuring skilled musicians from all over Missouri.
We now prove x^{*}\in MEP(F,\phi) and y^{*}\in MEP(G,\varphi) .
Following a similar argument as the proof of the above, we have y^{*}\in MEP(G,\varphi) .
Next, we prove conclusion (II).
On the other hand, since \Gamma_{n}(x,y)=\|x_{n}-x\|^{2}+\|y_{n}-y\|^{2} for any (x,y)\in\Gamma , we know that \lim_{j\rightarrow\infty}\Gamma _{n_{j}}(x^{*},y^{*})=0 . From conclusion (I), we have \lim_{n\rightarrow\infty }\Gamma_{n}(x^{*},y^{*}) exists, therefore \lim_{n\rightarrow\infty}\Gamma _{n}(x^{*},y^{*})=0 . Further, we can obtain that \lim_{n\rightarrow\infty}\| x_{n}-x^{*}\|=0 and \lim_{n\rightarrow\infty}\|y_{n}-y^{*}\|=0 . This completes the proof of conclusion (II). □
Taking \phi= 0 and \varphi=0 in Theorem 3.1 , we also have the following result.
0<\alpha\leq\alpha_{n}\leq\beta<1 ( \alpha, \beta\in (0,1) );
\liminf_{n\rightarrow\infty}r_{n}>0 \lim_{n\rightarrow\infty }|r_{n+1}-r_{n}|=0 .
\{(x_{n}, y_{n})\} ( 1.11 ).
, , -, \{ (x_{n},y_{n})\} ( 1.11 ).
In Theorem 3.1 taking B=I and H_{2}=H_{3} , from Theorem 3.1 we can obtain the following convergence theorem for general split equilibrium problem ( 1.10 )
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