As Dawkins explains, ideas spread through the behavior that they produce in their hosts, which is what enables them to be transmitted from one brain to another. For example, an ideology — such as a religion — that causes its inhabitants to practice its rituals and communicate its beliefs will be transmitted to others. Successful ideas are those that are best able to spread themselves, while those that fail to self-replicate go extinct. In this way, some religious ideologies persist while others fade into oblivion.
Brainwave Entrainment audio technology was first developed and introduced to the public decades ago by Robert Monroe, through the Monroe Institute. This organization used their brainwave entrainment audios as a tool to induce people into specifically directed out of body experiences as well as train remote viewers. Since then the crafting of brainwave entrainment audios has become a sophisticated art. These audios are now created and used by a number of businesses and individuals for a variety of purposes, most of which having to do with personal development and self-help.
“I have been using them as often as I could over the past week. During this time, I have undertaken editing a book, and plenty of reading, amongst other things. To help, I used the 'Razor Sharp' audio. It was like I was in my own little bubble of concentration. Amazing! I will continue to use this one every time I am working on something at the computer.
When stress overwhelms your nervous system, your body is flooded with chemicals that prepare you for “fight or flight.” This stress response can be lifesaving in emergency situations where you need to act quickly. But when it’s constantly activated by the stresses of everyday life, it can wear your body down and take a toll on your emotional and physical health.
The reported PMS symptoms that improved included: affective lability, anxiety, appetite changes, bloating, breast tenderness, concentration difficulties, depression, fatigue, and irritability. Researchers noted that there was a clear “trend” toward a reduction in social withdrawal as a result of symptoms as well. A total of 49/50 women reported improvements.
All you need to experiment with binaural beats is a binaural beat audio and a pair of headphones or earbuds. You can easily find audio files of binaural beats online, such as on YouTube, or you can purchase CDs or download audio files directly to your mp3 player or other device. As mentioned earlier, for a binaural beat to work, the two tones have to have frequencies of less than 1000 Hz, and the difference between the two tones can’t be more than 30 Hz.
Women worry more than men do. A study of 166 married couples who kept stress diaries for six weeks found that women feel stress more frequently than men because women tend to worry in a more global way. Whereas a man might fret about something actual and specific—such as the fact that he's just been passed over for a promotion—a woman will tend to worry abstractly about her job, her weight, plus the well-being of every member of her extended family. Keep your anxiety focused on real, immediate issues, and tune out imagined ones or those over which you have zero control, and you'll automatically reduce stress overload.
In March I started using the CDs that I affectionately call “Meditation for Dummies” and am very pleased with the results so far. My blood pressure has dropped, I am sleeping better and notice that I feel much more calm and less stressed. Instead of feeling that I need to “find the time” in my schedule to meditate, I look forward to that totally relaxing half hour–that peaceful feeling of floating.
Proceedings of the 9th Conference on Interdisciplinary Musicology – CIM14. Berlin, Germany 2014 nature (birds and wind) while the second group listened to theta binaural sound waves. Both groups listened to the stimulus through headphones. During the experiment, participants were monitored with the Neurosky Mindwave Interface, which was connected through Processing to a Max Patch that saved all the data in a ‘.csv’ file. Before the stimulus, a baseline EEG took place and the participants answered the “Trait” part of the STAI test and a pre-experiment “State” version of the test. After the experiment, participants answered a post-experiment “State” STAI and a post-experiment EEG also took place. Each experiment was developed with one participant at a time in a controlled environment. American Psychological Association Ethical Principles and Code of Conduct 2002 were followed. 6. MATERIALS • Herman Miller chair • Neurosky Mindwave Interface • Maximum Voltage – 1mV • Maximum radiofrequency Range (Bluetooth) 10m • Maximum transference rate through RF – 250kb/s • Sample rate – 512Hz • Battery cycle – 6-8h • MacBook Pro 7. SOFTWARE • Processing 1.5.1 • Microsoft Excel • Max 6 • Braintocsv V1.5: Application developed in Max 6 by Santiago Rentería, which collates data gathered from the Mindwave interface into a ‘.csv’ file. 8. DOCUMENTS • STAI questionnaire (Annex 2) • STAI “Trait”: Measures anxiety as a temporal state. • STAI “State”: Measures anxiety based on how people feel on a daily basis. • Consent Letter (Annex 3) 9. CONTROL ENVIRONMENT Recording Studio Control Room located at Instituto Tecnológico y de Estudios Superiores de Monterrey, Campus Santa Fe. Fixed temperature at 22ºC and acoustically isolated. 10. STIMULI • Experimental group – Binaural Theta frequencies • Control group – Nature environmental sounds 11. PROCEDURE • The participant is asked to read and sign a consent letter. • A pre-experimental three-minute encephalogram is taken and the participant is required to answer State and Trait STAI tests. • The corresponding stimulus is played during ten minutes and an EEG is taken. • The State STAI test is answered and a post-experiment EEG is taken. 12. VISUAL DATA ANALYSIS The stimuli took place from second 180 to second 774. (Graphs in Annex 1) 12.1 Theta The significant time range was from second 3 to second 948. The most significant moments were the following: (see annex A1.5) s = 189; p = 0.014; t = 1.025 s = 495; p = 0.002; t = -1.923 s = 780; p = 0.001; t = -2.349 12.2 Meditation The significant time range was from second 240 to second 912. The most significant moments were the following: (see annex A1.3) s = 240; p = 0.042; t = .0.685 s = 522; p = 0.013; t = 0.546 s = 702; p = 0.016; t = 0.897 12.3 Delta The significant time range was from second 12 to second 954. The most significant moments were the following: (see annex A1.10) s = 177; p = 0.046; t = 1.696 s = 627; p = 0.016; t = -1.366 s = 912; p = 0.007; t = 1.758 12.4 Attention The significant time range was from second 243 to second 870. The most significant moments were the following: (see annex A1.11) s = 243; p = 0.021; t = 0.672 s = 513; p = 0.005; t = 0.722 s = 753; p = 0.017; t = 0.383 12.5 STAI Variations were found in STAI-State pre-experiment and post-experiment: • Control group results rose from 19 to 21 • Experimental group results decreased from 20 to 15. Variations between both groups were found in the STAI –Trait: • Experimental group with a score of 32 in STAI-T test outran control group by 4 points 13. RESULT ANALYSIS Samples were analyzed every three seconds. They were later statistically distributed according to the T-student test in order to find differences between both groups. For this experiment, the significant p value was p<0.05, this means that the probability is less than 5% T-student detailed analysis: • The meditation value is similar in both groups, (see graph A1.3). T-student function shows less significant points for this parameter. This means both stimuli induced relaxation to the participants. • Theta values are higher in the control group, especially after second 510 (see graph A1.5) almost at the middle of the stimulus. • STAI “State” post-experiment results from the experimental group are higher than the control. Therefore, theta binaural frequencies were more effective as an anxiolytic stimulus. (see graphs A1.1 and A1.2) • Delta values are higher after second 285 in the control group (see graph A1.10). This indicates deep sleep and losing of consciousness over the body (unconscious relaxation). It is highly possible that the participant fell asleep or got to the first stages of sleep. • There is a significant difference in delta between experimental and control groups after second 870 (post-stimulus). For the