location couple的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列各種有用的問答集和懶人包

Constructing Authentic Relationships in Clinical Practice: Working at the Intersection of Therapist and Client Identities

為了解決location couple的問題，作者 這樣論述：

This essential text explores the intersectionality of the self in therapeutic practice, bringing together theoretical foundations and practical implications to provide clear guidance for students and practitioners.Bringing together a collection of insightful and experienced clinicians, this book

examines the ways in which intersectionality influences all phases of clinical and supervisory work, from outreach, assessment, and through to termination. Integrating research with clinical practice, chapters not only examine the theoretical, intersectional location of the self for the therapist, c

lient, or supervisee, but they also consider how this social identity effects the therapeutic process and, crucially, work with clients. The book includes first-hand accounts, case studies, and reflections to demonstrate how interactions are influenced by gender, race, and sexuality, offering practi

cal ideas about how to work intentionally and ethically with clients. Engaging, informative, and practical, this book is essential reading for students, supervisors, family, marriage, and couple therapists, and clinical social workers who want to work confidently with a range of clients, as well as

clinical professionals interested in the role of intersectionality in their work.

location couple進入發燒排行的影片

應用多目標基因演算法求解貴重物品之防盜裝置選址問題

為了解決location couple的問題，作者陳佩均 這樣論述：

摘　要 iABSTRACT ii致　謝 iii目　錄 iv表目錄 vi圖目錄 vii第一章 緒論 11.1 研究背景與動機 11.2 研究目的 31.3 研究流程 4第二章 文獻探討 72.1 防盜設備 72.2 無線射頻辨識 92.2.1 RFID之應用 112.3 設施選址問題 142.3.1　選址問題類型 152.3.2　覆蓋問題 152.4 啟發式演算法 182.4.1　基因演算法 192.4.2　多目標基因演算法 192.4.3　多目標基因演算法應用 20第三章 研究方法 223.1 問題描述與假設 223.2

研究架構 233.3 數學模型 253.4 多目標基因演算法求解步驟 28第四章 案例分析 354.1　　初始建構 354.2　　參數設計 364.3　　績效衡量指標 394.4　　實驗結果 46第五章 結論與建議 525.1　　結論 525.2　　建議 53參考文獻 54

Shock Phenomena in Granular and Porous Materials

為了解決location couple的問題，作者 這樣論述：

Dr. Tracy Vogler received a B.S. in Engineering Science and Mechanics from Virginia Tech. As a Hertz Fellow, he received a S.M. in Aeronautics and Astronautics from MIT and a Ph.D. in Engineering Mechanics from the University of Texas at Austin. His research as a student focused on the behavior and

failure of fiber composites. Following a post-doc at the U.S. Army Research Laboratory, he joined the experimental shock physics group at Sandia National Laboratories in Albuquerque, New Mexico in 2001. In 2008 he transferred to Sandia’s location in Livermore, California and is currently a Distingui

shed Member of the Technical Staff in the Mechanics of Materials department.Dr. Vogler’s research interests include the dynamic behavior of granular materials, the high-pressure strength of materials such as metals and ceramics, failure and fracture of materials, and the blast loading of structures.

He is involved in both experiment, which utilize the Z machine, gas guns, and explosives, and simulations using the DOE’s high-performance computing platforms.Dr. Vogler is an associate editor of the Journal of the Dynamic Behavior of Materials. He has also been active in the American Physical Soci

ety Topical Group on Shock Compression of Condensed Matter, serving as an officer for six year between 2007 and 2014 and co-organized the group’s biennial meeting in 2011. He currently resides in Livermore, California and enjoys running and other outdoor activities as well as coaching youth track an

d cross country. Dr. D. Anthony Fredenburg received his formal education in Materials Science and Engineering from North Carolina State University and the Georgia Institute of Technology. His research into the dynamic response of porous materials began during his tenure at Georgia Tech, where his th

esis work focused on developing a framework for utilizing the quasi-static densification behavior of granular mixtures to predict their response under dynamic loading. Since that time he has continued to pursue advancements in the field of granular shock physics with an eye toward predictive compact

ion modeling. Currently residing in Santa Fe, NM, Dr. Fredenburg continues to engage in the high pressure science of both granular and solid materials at Los Alamos National Laboratory. In recent years his research has shifted more toward modeling and simulation, where he is able to couple advanced

material models and theories to a wide range of dynamic impact applications. While not pursuing scientific endeavors, Dr. Fredenburg enjoys spending time with his growing family and engaging in activities such as hiking, running, and boating.

Crustal Seismicity of the eastern Hellenic volcanic arc: Its relationship with active faulting and volcanic centers

為了解決location couple的問題，作者安拉蕊 這樣論述：

愛琴海下方非洲板塊的隱沒形成了希臘隱沒帶和火山弧，控制著愛琴海南部的地震活動，包括愛琴海東南部和聖托里尼-阿莫爾戈斯帶。 由於存在活動斷層和各種變形地形，這些地區還受到非洲板塊回滾引起的伸展變形的影響。 因此，此論文旨在確定這些活動斷層和火山中心如何塑造觀測到的地殼地震活動。 由於這些地區發生了中大型地殼地震（Mw>6），我們還對繪製的活動斷層的潛勢進行了評估。2002年到2020年間，被臨時和永久地震測震網所記錄的地震運動，我們藉著最小一維速度模型重新定位，以獲得精確的相對位置。 在愛琴海東南部，這些位置能夠描繪出大部分活動斷層。 另一方面，沿聖托里尼-阿莫爾戈斯帶重新定位的地震活動只能描

繪出八個活動斷層中的三個，表示這些活動可能不僅僅是由活動斷層引起的。相反地，重新定位的地震分佈也告訴了我們安德羅斯島和聖托里尼-阿莫爾戈斯東北部段下方的兩個垂直地震群，可能是向上遷移流體的通道。岩石物理參數的側向分佈和全矩張量解後來被用來確定地殼地震活動與沿聖托里尼-阿莫爾戈斯帶的流體之間的關係。在垂直地震群位置發現的高 Vp/Vs 比 (1.77-1.86)、裂縫密度 (0.15-0.30) 和流體飽和度 (0.71-0.76) 顯示存在流體並加強了這些結構確實可能存在的可能性與向上的流體遷移有關。發生在 Kolumbo 海底火山和 Anydros 島下方的微地震，藉由 P 波極性和 SV/

P、SH/P 振幅比的矩張量反演，指出指出矩張量解和非雙耦合有正相關分量。這暗示微地震可能是由流體運移過程中裂縫的開合所產生的拉伸斷層引起的。地震危害度評估是通過利用考慮了孕震層厚度的經驗關係來估計每個活動斷層的預期地震規模來進行的。 研究區發孕層厚度為12.1~15.4km。 兩個地區斷層未來地震的預期的地震矩規模在5.9-7.2之間。 由於這些斷層大多位於外海，由這些外海斷層中的任何一個破裂引起的主震都可能伴隨著海嘯。