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82 http://journals.cihanuniversity.edu.iq/index.php/cuesj CUESJ 2020, 4 (1): 82-84

ReseaRch aRticle

Detection and Evaluation of Effective of Digital Communication 
of Drug on Human Body
Zakaria K. Jalal1*, Abdulrazak A. Mohammed2, Adil H. Mohammed2

1English Department, Astar Education Institute, Vasteras, Sweden, 2Department of Communications and Computer Engineering, Cihan 
University, Erbil, Kurdistan Region, Iraq

ABSTRACT

Nowadays, there is a wide using of mobile and internet from various ages, due to some bad systems which they work to send signals 
(sound wave frequency) within the music or will be spread to affect the brain of the humankind. Therefore, this paper expresses the 
detection and evaluation of (the signal of sound frequency) which influence the human brain, it has been measured some frequency by 
programming in the mobile and found a trend to detect such frequencies and a way to produce a human being from it.

Keywords: Digital communication, digital drug, electromagnetic radiation

INTRODUCTION

The updated technology of communication (mobile and network) makes our social life more easy for communication and it will be active, but at the same time, it causes our 
lives many dangerous issues (such as electromagnetic radiation 
and sound pressure, especially ultrasonic waves) for all ages 
as well. Meanwhile, we need to point to specify the negative 
side of this new technique equipment and define all the waves 
with their bad usages. As we know the ear is a sound pressure 
receptor (or sensor) that influences our behavior (physically or 
physiology) because these techniques are getting inside houses 
without any our permission or observations. Whereas, the sense 
of hearing counts on the sensory receptors of the inner ear 
known as hair cells and the hair cells are extremely vulnerable 
and can be affected by disease, ageing and over-exposure to 
loud noise. Once destroyed, they do not regenerate.

Sound Properties and Characteristics[1]

It is the compression wave traveling down material bar. It is a 
physiological sensation of hearing and it looks like mechanical 
motion which is considered as longitudinal waves (number 
of consecutive rarefaction and consecutive compression as 
shown in Figure 1).

CHARACTERISTICS OF SOUND

Amplitude, Pitch, Frequency (n) =1/T, Period (T) =1/f, 
Wavelength (λ).

Speed (v), Quality, Tone, and A note.

Amplitude (A): It is a maximum displacement of particles 
vibration from their meaning poison and it is two types: 

(A) Louder sound (higher energy) and (B) soft sound. (It 
counts on wave distribution). Wavelength (λ): It is a distance 
between two consecutions compression and two consecutions 
rarefaction in the longitudinal frequency (n): It is a number of 
waves produced by a unit time and its unit is (hertz) n=1/T. 
Pitch: It is an interpretation of the frequency of a sound by the 
brain. It affects on the wave shape where the high pitch that 
means high frequency and amplitude and short wavelength 
(which gives a loud sound [or pitch]).

Period (T): It is a time duration of the wave (frequency) 
T=1/n or it is sound propagate on an intervals between two 
successive consecutions compression and two consecutions 
rarefaction.

Quality (Timbre) of the sound: It is a character helps us to 
make a different between two sound different sources but same 
pitch or loudness. Tone, it is a sound wave of single frequency. 
A note, it is a sound wave of the number of frequencies.

Speed (v): It is the ratio between distance (wavelength) 
and the time.

Cihan University-Erbil Scientific Journal (CUESJ)

Corresponding Author: 
Zakaria K. Jalal, English Department, Astar Education Institute, 
Vasteras, Sweden. E-mail: zkarim53@yahoo.com

Received: Apr 04, 2019 
Accepted: Apr 25, 2019 
Published: Jan 20, 2020

DOI: 10.24086/cuesj.v4n1y2020.pp82-84

Copyright © 2020 Zakaria K. Jalal, Abdulrazak A. Mohammed, Adil H. 
Mohammed. This is an open-access article distributed under the Creative 
Commons Attribution License.

https://creativecommons.org/licenses/by-nc-nd/4.0/
https://creativecommons.org/licenses/by-nc-nd/4.0/


Jalal, et al.: Detection of digital communication of drug on human body

83 http://journals.cihanuniversity.edu.iq/index.php/cuesj CUESJ 2020, 4 (1): 82-84

Speed of sound v =Dis./Time = λ/T but n=1/T, then v=n λ

Wavelength: The distance between two consecutive 
compressions and two consecutive rarefactions in the long of 
the wave moving. The speed of the sound depends on type 
of the medium (material). There are several effectives of the 
sound (depending on sound pressure level as shown in Table 1) 
on humankind such as physic scaly, physiology, and behaviors.

Sound Effects

Digital communication affects humankind’s body in 
many various methods such as drug detection, wireless 
communications, and various channels including several 
quantities of e-posts, email newsletters, social, targeted outreach 
to media, and health-care professionals in a bad way. These 
messages and communications announcement among people 
can be changed from new or appear risks related to concurrent 
conditions (for example, pregnancy or existing liver or kidney 
disease) or attentions about potential medication errors. 
Moreover, digital communication including issues influencing 
a great deal of patients, potentially serious or life-threatening 
injuries events, or medication errors that may result in serious 
or life-threatening conflicting answers. Whereas the digital 
communication influences directly on the behaviorism, mental 
and psychology of the person without feeling it because he/she 
will be detected automatically and this will affect humankind’s 
mentality and it may lead to commit suicide as well.

The arriving narrative forms of communication increase 
information processing and increase the persuasiveness of 
messages and people become transported into a situation that 
can enhance emotions, attitudes, and behaviors.

As a result, it will be not easy to get rid of this detection 
which became part of his/her life everywhere and anywhere.

Digital Drugs[2]

More accurately called binaural beats which are sounds that can be 
capable of changing brain wave patterns and inducing an altered 
state of consciousness similar to that affected by taking drugs or 
achieving a deep state of meditation. Binaural beats occur when 
two tones with slightly different frequencies are played together. 
Without headphones, the slight difference in the two frequencies 
is perceived by the listener as a single tone that wavers slightly. 
Hence, headphones, however, the two tones are isolated and the 
listener hears each frequency clearly in a different ear. As the 
brain processes the two tones, it must take into account that the 
slight difference among the frequencies. As for the listener, this 
difference is perceived as rhythmic beats inside the head.

The brain processes rhythmic stimulus as electrical 
impulses. The goal of digital drugs is to purposely overcome 
the electrical impulses and encourage the listener’s brain to 
synchronize its brain waves with the binaural beats. This 
synchronization which is achieved by selecting binaural tones 
within a particular frequency level is called frequency following 
response and is a part of a concept called entrainment. 
Entrainment, the synchronization of one biological rhythm to 
another is not a new concept. It forms the basis for many sorts 
of meditation and medical biofeedback.

Properties of Digital Drugs[3,4]

Frequencies are measured in units called hertz (Hz) by listening 
to two tones in difference falls within a particular Hz level, the 
listener hopes to achieve a particular mood or change in energy. 
For instance, if the listener wants to be very relaxed, he might 
choose to listen to a tone with 140 Hz in one ear and 145 Hz 
in the other. The listener’s brain would perceive the viciousness 
between the two frequencies (5 Hz) and adjust the listener’s 
brain waves accordingly. If the listener wants to be energized, 
however, he might choose to listen to 130 Hz in one ear and 
150 Hz in the other. A difference of 20 Hz in frequencies would 
produce a various state of mind as shown in Table 2.

Sound Spectrum Measuring[5]

Using a special sound meter program (within mobile 
application) which has been measured by some frequency 
spectrum sound for ultrasonic to supersonic (where the range 
of humane hear from 20 Hz to 20,000 Hz), some frequencies 
are out of the hearing range, as shown in Figure 2, starting 
from 2A for frequency before 20 Hz to 2 D after 20,000 Hz. 

Table 1: Effective of sound level

Sound pressure level Permissible exposure time

115 dB 0.468 min (≅30 s)

112 dB 0.937 min (≅1 min)

109 dB 1.875 min (<2 min)

106 dB 3.75 min (<4 min)

103 dB 7.8 min

100 dB 15 min

97 dB 30 min

94 dB 1 h

88 dB 4 h

82 dB 16 h

Figure 1: Characteristics of sound wave



Jalal, et al.: Detection of digital communication of drug on human body

84 http://journals.cihanuniversity.edu.iq/index.php/cuesj CUESJ 2020, 4 (1): 82-84

That means there are a lot of frequencies affect on human’s 
body without hearing it.

RESULTS AND DISCUSSION[6,7]

1. Using mobile has a side effect which is the microwave 
radiation as well as the effect of ultrasound waves

2. The effective of microwaves is physically, but the effective 
of ultrasound is physiological, physical, and behavior

3. The output of microwave effective will appear after a 
long period while the effective of ultrasound will appear 
during a short period

4. Digital well-being considerations. When optimizing 
digital health, multiple health-relatedcomponents can be 
taken into consideration.[6]

5. The effective is usually different from person to other 
because it counts on the followingfactors:
a. The time period that the person stay under the 

frequency of sound wave as shown in Table 3
b. The behavior and situation of the person during the 

effective

c. The power and pressure level of the sound. Table 1 
shows the level and time of affecting (exposure time)

d. Using headphone or without (because using 
headphone is effected more).

CONCLUSION

Digital well-being is a term used by health professionals, 
researchers, and device manufacturers to describe the concept 
of humans interact with technology. The experience should 
support mental and/or physical health in a measurable way. 
The goal of improving digital well-being is to design technology 
in such a way that it promotes healthy use and proactively 
assists the user to maintain a healthy lifestyle.[4,6]

Using a digital communication (mobile, laptop, and iPad) 
with internet, the user certainly will receive and affect the 
unwanted sound frequency wave; of course, the user effective 
counted on the factors that mentioned above.

We should observe the kids and children to be sure; they 
are using the digital instruments on right ways by:
a. They should use free beneficial programs of any digital drug
b. Control and check the children not to join or purchasing 

materials or playing games witha bad group
c. Observe the children’s behavior in any serious forward 

motion (such as dancing, doing something, or chatting) and 
you should know in which programming he is busy with it.

REFERENCES
1. C. J. Mosees and C. A. Moyer. “Modern Physics Serway”. Saunders 

College Publishing, USA, 1989.
2. Ryan Singel Pokes Fun at the Media Frenzy over i-Dosing on Wired.com. 

Available from: https://www.whatis.techtarget.com›definition›digital.
3. Ron Doyle blogs about I-Dosing: Digital Drugs and Binaural 

Beats for Psychology Today. Available from: https://www.whatis.
techtarget.com›definition›digital.

4. Available from: https://www.de.wikipedia.org/wiki/Digitaldruck. 
[Last accessed on 2019 Mar 25].

5. Visual Analyzer; 2011. Available from: https://www.reviewjournal.
com›Life›Healthon. [Last accessed on 2019 Dec 26].

6. Available from: https://www gogleCom/search2 q=digta druck&rlz= 
1C2RUCY_entQ797IQ797. [Last accessed on 2019 Dec 26].

7. H. M. Michael and N. T. Peter. “Acoustical Imaging”. Kluwer 
Academic Publishersm, London, 2000.

Table 2: State of sound frequency

Type Frequency 
range (hZ)

State of mind

Delta 0.5 Hz – 4 Deep sleep

Theta 4 Hz – 8 Drowsiness (also first stage of sleep)

Alpha 8 Hz – 14 Relaxed but alert

Beta 14 Hz – 30 Highly alert and focused

Table 3: Noises can cause damage to wear hearing

Type Noise 
value (dB)

Period

A 85 dB Regular and prolonged exposures to noise 
at or above 85 dB (averaged 8 h/day)

B 100 dB Regular and prolonged unprotected 
exposures of more than 15 min/day risk 
permanent hearing loss

C 110 dB Regular and prolonged unprotected 
exposures of more than 1.5 min/day risk 
permanent hearing loss

Figure 2: (a-d) Sound frequencies spectrum

dc

ba