Mobile phones have evolved into a necessity in our daily lives. Human life would be impossible to imagine without the use of mobile phones. The use of mobile phone waves functions is expanding all the time. The frequencies of the spectrum of mobile phone radiation are growing in this sequence. The Indian government is considering launching a 5G spectrum of electromagnetic waves soon. The frequency of radiation in 5 G begins at 3 GHz while reaches a maximum of 2.45 GHz in 4 G. The values of electric fields around the transmission tower grow as the frequency increases. Extra amounts of energy are absorbed by the biological tissues when these electric fields penetrate inside human beings. This paper investigates the harmful effects of electric fields and energy absorption by selected biological tissues. The energy absorption by the tissues of Brain White Matter, Breast Fat, Cartilage, Cerebellum, Cerebrospinal fluid, Cervix, Colon, Cornea, Duodenum, and Dura are computed. After analyzing the extra energy emitted by 5 G electromagnetic radiation transmission towers, it was found that the breast fat and cerebrospinal fluid tissues absorb the maximum energy and harmful for these tissues.

1.
M.
Simkó
and
M.O.
Mattsson
,
Int J Environ Res Public Health
16
,
3406
3417
(
2019
).
2.
H.
Hintzsche
,
C.
Jastrow
,
T.
Kleine-Ostmann
,
U.
Kärst
,
T.
Schrader
and
H.
Stopper
,
PloS One
7
,
e46397
46407
(
2012
).
3.
S.
Koyama
,
E.
Narita
,
Y.
Shimizu
,
Y.
Suzuki
,
T.
Shiina
and
M.
Taki
,
Int J Environ Res Public Health
13
,
802
814
(
2016
).
4.
S.
Koyama
,
E.
Narita
,
Y.
Suzuki
,
T.
Shiina
,
M.
Taki
and
N.
Shinohara
,
J Radiat Res.
60,
417
423
(
2019
).
5.
A.
De Amicis
,
S.
De Sanctis
,
S.
Di Cristofaro
,
V.
Franchini
,
F.
Lista
and
E.
Regalbuto
,
Mutat Res Genet Toxicol Environ Mutagen
793
,
150
160
(
2015
).
6.
V.
Franchini
,
E.
Regalbuto
,
A.
De Amicis
,
S.
De Sanctis
,
S.
Di Cristofaro
and
E.
Coluzzi
,
Health Phys.
115
,
126
139
(
2018
).
7.
Y.G.
Shckorbatov
,
V.N.
Pasiuga
,
N.N.
Kolchigin
,
V.A.
Grabina
,
D.O.
Batrakov
and
V.V.
Kalashnikov
,
Int J Radiat Biol.
85
,
322
329
(
2009
).
8.
K.K.
Kesari
and
J.
Behari
,
Appl Biochem Biotechnol.
158
,
126
135
(
2009
).
9.
S.
Kumar
,
K.K.
Kesari
and
J.
Behari
,
Indian J Exp Biol.
48
,
586
592
(
2010
).
10.
D.
Crouzier
,
A.
Perrin
,
G.
Torres
,
V.
Dabouis
and
J.C.
Debouzy
,
Patho Biol.
57
,
245
251
(
2009
).
11.
V.P.
Kalantaryan
,
P.O.
Vardevanyan
,
Y.S.
Babayan
,
E.S.
Gevorgyan
and
S.N.
Hakobyan
,
ProgElectromag Res.
13
,
1
9
(
2010
).
12.
A.
Kumar
,
V.
Kumar
and
P.P.
Pathak
,
Journal of chemical, biological and Physical Science
4
(
1
),
480
-
489
( 2013).
13.
S.
D'Agostino
,
C. Della
Monica
,
E.
Palizzi
,
F.
Di Pietrantonio
,
M.
Benetti
and
D.
Cannatà
,
Sci Rep.
8
9299
9309
(
2018
).
14.
V.
Dabouis
,
P.
Arvers
,
J.C.
Debouzy
,
C.
Sebbah
, and
D.
Crouzier
,
Perrin
A.
Int J Environ Health Res.
26
,
131
144
(
2016
).
15.
V.
Kumar
,
M.
Ahmad
and
A.K.
Sharma
,
Eastern Journal of medicine
15
,
80
89
(
2010
).
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