There\u27s Someone More Lonesome Than You

[Verse 1] You say you’re feeling blue, You don’t know what to do, And as each day goes by, It seems the same to you, Then picture in your mind, Someone you left behind, A simple country cottage, And in there you will find. [Chorus] There’s someone more lonesome than you, Someone with true eyes of blue, Day by day she wanders through the wildwood, Dreaming of the love that once she knew, She’s waiting and sighing in vain For you promised you’d be true, While you’re living in the bright lights with the merry and the gay, There’s a loving heart you’ve broken just to pass the time away, And she is more lonesome, more lonesome than you. [Verse 2] You say the world in wrong, The brook still sing it’s songs, The meadow grass is green, Go back where you belong, And make her poor heart glad, She wants you mighty bad, Just think how long she’s waiting, And if you’re feeling sad. [Chorus] Poem: (recited during the second chorus) LONESOME, one little word but oh what it means A word that portrays a thousand sad scenes, Picture, a dog and his master, whom no one could save, As he sits there and whines o\u27er his master\u27s grave. Though he kicked him and beat him when it comes time to part, Even a dog dies of a broken heart. · Picture some old mother all wrinkled and gray. Her son\u27s at the front fighting day by day; Her poor heart grows weary, she\u27s soon laid to rest And God only know, it was from lonesomeness. Take a lad who is lonely, in, some lonesome town. He does a great wrong, two old heads are bowed down, A year or two passes, and the prodigal son Returns, is forgiven, when all\u27s said and done. But put the poor girl in the lonesome lad\u27s place, The wrong\u27s not her fault still her name\u27s in disgrace, Does someone forgive the prodigal girl? No, they drag her down lower to the gut of the world. Then they all wonder why she is walking along, Selling her soul for the price of a song- So think of the girl when you\u27re lonesome and blue- For she is more lonesome, more lonesome than you

Correlations among Multi-Wavelength Luminosities of Star-Forming Galaxies

It has been known for two decades that a tight correlation exists between far-infrared (FIR) and radio (1.4 and 4.8 GHz) global fluxes/luminosities from galaxies, which may be explained in terms of massive star formation activities in these galaxies. For this very reason, a correlation might also exist between X-ray and FIR/radio global luminosities of galaxies. We analyze data from {\it ROSAT} All-Sky Survey and {\it IRAS} to show that such correlation does indeed exist between FIR (42.5$-122.5\mu$m) and soft X-ray (0.1$-$2.4keV) luminosities in active star-forming galaxies (ASFGs).In order to establish a physical connection between the L_{\rmX}-L_{\rm FIR} correlation and global star formation rate (SFR) in galaxies, we empirically derive both $L_{\rm X}-L_{\rm B}$ and $L_{\rm FIR}-L_{\rm B}$ relations. Futhermore, we propose a relation between soft X-ray luminosity and SFR in star-forming galaxies. To further understand the $L_{\rm X}-L_{\rm FIR}$ relation, we construct an empirical model in which both FIR and X-ray emissions consist of two components with one being closely associated with star formation and the other not.Comment: 9 pages, 6 figures, accepted by MNRA

On The Hoko Moko Isle

https://digitalcommons.library.umaine.edu/mmb-vp/2318/thumbnail.jp

On The Hoko Moko Isle

https://digitalcommons.library.umaine.edu/mmb-vp/2317/thumbnail.jp

The Little Good For Nothing\u27s Good For Something After All

https://digitalcommons.library.umaine.edu/mmb-vp/4901/thumbnail.jp

There\u27s someone more lonesome than you

https://digitalcommons.library.umaine.edu/mmb-vp/4378/thumbnail.jp

A Gay Caballero

Illustration of trees by water; Photograph of Frank Crumithttps://scholarsjunction.msstate.edu/cht-sheet-music/6659/thumbnail.jp

Ab initio many-body calculations on infinite carbon and boron-nitrogen chains

In this paper we report first-principles calculations on the ground-state electronic structure of two infinite one-dimensional systems: (a) a chain of carbon atoms and (b) a chain of alternating boron and nitrogen atoms. Meanfield results were obtained using the restricted Hartree-Fock approach, while the many-body effects were taken into account by second-order M{\o}ller-Plesset perturbation theory and the coupled-cluster approach. The calculations were performed using 6-31$G^{**}$ basis sets, including the d-type polarization functions. Both at the Hartree-Fock (HF) and the correlated levels we find that the infinite carbon chain exhibits bond alternation with alternating single and triple bonds, while the boron-nitrogen chain exhibits equidistant bonds. In addition, we also performed density-functional-theory-based local density approximation (LDA) calculations on the infinite carbon chain using the same basis set. Our LDA results, in contradiction to our HF and correlated results, predict a very small bond alternation. Based upon our LDA results for the carbon chain, which are in agreement with an earlier LDA calculation calculation [ E.J. Bylaska, J.H. Weare, and R. Kawai, Phys. Rev. B 58, R7488 (1998).], we conclude that the LDA significantly underestimates Peierls distortion. This emphasizes that the inclusion of many-particle effects is very important for the correct description of Peierls distortion in one-dimensional systems.Comment: 3 figures (included). To appear in Phys. Rev.