Jungian Advanced Motor Processing (JAMP) is a mode of treatment developed in May of 2020 by Dr. Lahab Al-Samarrai during the COVID-19 pandemic. Dr. Al-Samarrai had many students who reported increased anxiety, negativ...Jungian Advanced Motor Processing (JAMP) is a mode of treatment developed in May of 2020 by Dr. Lahab Al-Samarrai during the COVID-19 pandemic. Dr. Al-Samarrai had many students who reported increased anxiety, negative thoughts, fearful thoughts, and self-defeating thoughts. These students needed symptom relief more quickly than conventional talk therapy typically provides. Dr. Al-Samarrai developed a treatment modality incorporating light, bilateral audible beats, and positive affirmations. So far, more than 100 subjects have undergone JAMP, and this paper is a case study of one such subject. The research currently being compiled on JAMP, the subject of a future paper, to date shows positive improvement after receiving 5 - 6 sessions, and demonstrated decreases in both somatic symptoms and post-traumatic symptoms ranging from 45 - 55 percent. This paper will share the following: 1) Description of the underlying theoretical components supporting the treatment;2) Description of the treatment;3) Discussion of the case of Grace and her experience with JAMP.展开更多
The main goal of this paper is to study the characteristics of regression rate of solid grain during thrust regulation process. For this purpose, an unsteady numerical model of regression rate is established. Gas–sol...The main goal of this paper is to study the characteristics of regression rate of solid grain during thrust regulation process. For this purpose, an unsteady numerical model of regression rate is established. Gas–solid coupling is considered between the solid grain surface and combustion gas.Dynamic mesh is used to simulate the regression process of the solid fuel surface. Based on this model, numerical simulations on a H2O2/HTPB(hydroxyl-terminated polybutadiene) hybrid motor have been performed in the flow control process. The simulation results show that under the step change of the oxidizer mass flow rate condition, the regression rate cannot reach a stable value instantly because the flow field requires a short time period to adjust. The regression rate increases with the linear gain of oxidizer mass flow rate, and has a higher slope than the relative inlet function of oxidizer flow rate. A shorter regulation time can cause a higher regression rate during regulation process. The results also show that transient calculation can better simulate the instantaneous regression rate in the operation process.展开更多
文摘Jungian Advanced Motor Processing (JAMP) is a mode of treatment developed in May of 2020 by Dr. Lahab Al-Samarrai during the COVID-19 pandemic. Dr. Al-Samarrai had many students who reported increased anxiety, negative thoughts, fearful thoughts, and self-defeating thoughts. These students needed symptom relief more quickly than conventional talk therapy typically provides. Dr. Al-Samarrai developed a treatment modality incorporating light, bilateral audible beats, and positive affirmations. So far, more than 100 subjects have undergone JAMP, and this paper is a case study of one such subject. The research currently being compiled on JAMP, the subject of a future paper, to date shows positive improvement after receiving 5 - 6 sessions, and demonstrated decreases in both somatic symptoms and post-traumatic symptoms ranging from 45 - 55 percent. This paper will share the following: 1) Description of the underlying theoretical components supporting the treatment;2) Description of the treatment;3) Discussion of the case of Grace and her experience with JAMP.
基金co-supported by the Innovation Foundation of Beihang University for Ph.D. Graduatesthe National Natural Science Foundation of China (No. 51206007)
文摘The main goal of this paper is to study the characteristics of regression rate of solid grain during thrust regulation process. For this purpose, an unsteady numerical model of regression rate is established. Gas–solid coupling is considered between the solid grain surface and combustion gas.Dynamic mesh is used to simulate the regression process of the solid fuel surface. Based on this model, numerical simulations on a H2O2/HTPB(hydroxyl-terminated polybutadiene) hybrid motor have been performed in the flow control process. The simulation results show that under the step change of the oxidizer mass flow rate condition, the regression rate cannot reach a stable value instantly because the flow field requires a short time period to adjust. The regression rate increases with the linear gain of oxidizer mass flow rate, and has a higher slope than the relative inlet function of oxidizer flow rate. A shorter regulation time can cause a higher regression rate during regulation process. The results also show that transient calculation can better simulate the instantaneous regression rate in the operation process.
