388 research outputs found
San Bruno, puerta a los cerros: arquitectura como vínculo entre el ciudadano y su entorno natural
Artículo de gradoSe realiza un proyecto urbano a escala de tres barrios: Egipto, El Parejo y La Peña. igualmente se realiza un proyecto urbano a menor escala en el sector San Bruno (Egipto) y un proyecto arquitectónico dentro de este, en la entrada a los Cerros Orientales de Bogotá, se propone una casa del árbol.1. INTRODUCCIÓN
1.1 DISPOSITIVOS DE APROPIACIÓN DEMOCRATICA
2. METODOLOGÍA
3. RESULTADOS
3.1 ETAPAS DE DESARROLLO
3.2 BARRIO EGIPTO, EL PAREJO Y LA PEÑA
3.3 SECTOR SAN BRUNO
3.4 MEMORIA Y ACCESIBILIDAD
3.5 BOSQUE DE COLUMNAS
3.5.1 ACTIVA
3.5.2 PASIVA
3.5.3 PRODUCTIVA
4. LA CASA DEL ARBOL
5. DISCUSIÓN
6. CONCLUSION
7. REFERENCIAS
8. ANEXOSPregradoArquitect
RESEARCH REPORTS FOR INOHANA-SCHOLARSHIPS OF 1993.
平成5年度猪之鼻奨学会研究補助金による研究報告
«Querer ser mãe ... um longo caminho a percorrer!» Um caso da consulta GEMF (Grupo de Estudos de Morte Fetal)
A perda de uma criança «in utero)) pode ser uma
experiência trágica para a mulher. O objectivo deste
artigo é tentar abordar esta questão e examinar os resultados
do apoio psicológico numa futura gravidez
após um ou mais insucessos por Morte fetal, dando como
exemplo a análise de um caso clínico.ABSTRACT: The loss of a child «in utero» can be a tragic experience.
The purpose of the present article is to examine
the effectiveness of psychological intervention in the
adjustment to a fetal death and to a pregnancy after a
fetal death, focusing on a clinical case.info:eu-repo/semantics/publishedVersio
牛山英治が編纂した山岡鉄舟の伝記について
Table S8. Comparison of GD in different studies. MICN is an abbreviation of Modified introduction in China; TS is an abbreviation of Tropical/Subtropical; SS is an abbreviation of Stiff Stalk; NSS is an abbreviation of non-Stiff Stalk; HZS is an abbreviation of Huangzaosi. (XLSX 11 kb
Data_Sheet_1_Embodiment and Humiliation Moderation of Neural Responses to Others' Suffering in Female Submissive BDSM Practitioners.docx
<p>Giving and receiving pain are common in the practice of BDSM (bondage-discipline, dominance-submission, and sadism-masochism). Playing a submissive role during BDSM practice weakens both the behavioral and neural empathic responses of female individuals to others' suffering, suggesting that long-term BDSM experience affects BDSM practitioners' empathic ability. This study further investigates whether physical restriction during BDSM practice also modulates individuals' neural responses to others' suffering. We measured neural responses to others' suffering by recording event-related potentials (ERPs) in female submissives while they viewed painful and neutral expressions in sexual sadistic/general social contexts under ball gag Blocking and Relaxed conditions. The neural responses recorded during 92–112 ms (N1), 132–172 ms (P2), 200–340 ms (N2), early late positive potential (LPP, 400–600 ms), and late LPP (700–1,000 ms) were included in the analyses. Compared to the relaxed condition, when a ball gag was used to prevent facial muscle movement and facial mimicry, the N1, early LPP, and late LPP responses neural responses to others' suffering were inhibited. The moderation effect of ball gag blocking on the N1 and early LPP amplitudes was positively correlated with the subjective feelings of facial muscle stillness, and the blocking moderation effect on the late LPP amplitudes was positively correlated with subjective feelings of humiliation. This study is the first neuropsychological investigation of the transient BDSM-related physical restriction effects on BDSM practitioners. These findings suggest that physical restriction (via a ball gag) during BDSM practices increases the wearer's facial muscle stillness and sense of humiliation. This physical restriction inhibits both early automatic responses and late controlled processes in response to the suffering of others.</p
Photoinduced Nickel-Catalyzed Selective <i>N</i>‑Demethylation of Trialkylamines Using C(sp<sup>2</sup>)–Bromides as HAT Reagents
N-Demethylation of trialkylamines is
a useful
transformation, but typically requires harsh reaction conditions and
stepwise procedures, as well as judicious protection of labile functional
groups. Herein we report a mild, catalytic approach for the demethylation
of trialkylamines by utilizing photoinduced nickel catalysis wherein
C(sp2)–bromides serve as hydrogen-atom transfer
(HAT) reagents. This method achieves direct demethylation of trialkylamines
with wide functional group compatibility, making it highly suitable
for late-stage derivatization of complex molecules. Mechanistic investigations
provide evidence that C(sp2) radicals generated via photoinduced
Ni–C(sp2) bond homolysis are involved in hydrogen
atom abstraction from trialkylamines. Utilizing steric control of
the C(sp2)–bromides, our HAT approach achieves demethylation
with excellent site selectivity in the presence of benzyl-substituted
amines, which is complementary to the selectivity of classical approaches
that afford debenzylation product instead
The subdiffusion case with the emblematic parameter values <i>F</i> = 1 and <i>β</i> = 1.
(a) The MSD/(2t), TMSDs/(2t) and TEMSD/(2t) are indicated by the dotted line, thin and thick solid lines, respectively. The inset in (a) shows the evolution of the trajectories at the time t = 1 × 106. (b) The velocity distribution at typical times t = 1 × 10−1, 1 × 101, 1 × 102, 1 × 106. The inset in (b) is an enlarged view of the velocity distribution at the time t = 1×106. (c) The distribution of particle positions P(Δx) (Histogram) at the time t = 1 × 106, here Δx = x − 〈x〉. The distribution of position is fitted by the exponential function (red line): P(Δx) = a exp(−bΔx) with a = 0.001585 and b = 0.00346. The remaining parameters are the same as in Fig 1.</p
The masquerade attack on Mishra et al.’s scheme.
<p>The masquerade attack on Mishra et al.’s scheme.</p
Symbols and notions in Mishra et al.’s scheme.
<p>Symbols and notions in Mishra et al.’s scheme.</p
Fig 1 -
The anomalous diffusion of an underdamped active Brownian particle governed by Eq (1), for different values of the external bias F with (a) β = 0.1, (b) β = 0.5, (c) β = 1, (d) β = 2.5, and (e) β = 5. The ensemble mean squared displacement (MSD/2t, marked by lines) with Eq (4) and the time- and ensemble-averaged mean squared displacement (TEMSD/2t, marked by symbols) with Eq (6). The remaining parameters are: , and the length of the time series t = 106. The representative dynamic properties are indicated by the (dotted) fitted lines.</p
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