Ram Charan, a South megastar, and his wife Upasana are preparing to become parents for the first time. After more than 10 years of blissful marriage, the couple is about to give birth to their first child, and their joy knows no bounds. The gender of Ram Charan and Upasana’s first child has been revealed, and their admirers couldn’t be happier.
The unborn child of Ram Charan and Upasana Kamineni is a girl.
It’s true what you just read! The unborn child of Ram Charan and Upasana Kamineni is a female. Fans are eagerly awaiting the birth of the newest member of the family as the fantastic news has put the internet into a frenzy. In addition, the eagerly anticipating parents’ fan base can’t wait to meet the gorgeous child.
It appears that Ram and Upasana will soon become parents to a newborn girl, so it’s time to celebrate by painting the town pink!
Ram Charan unintentionally exposes the gender of his future child.
Ram Charan recently discussed his personal life with a national media journalist and gave a strong indication as to the gender of his upcoming child. The actor acknowledged his affection for the important people in his life and revealed that his wife Upasana is his first love, followed by their pet Rhyme. But Ram’s statement that her third jaan was on the way captured everyone’s attention. When discussing the same, he said:
According to reports in the media on Tuesday, a team of Chinese researchers has achieved ultra-high-speed communication using the first-ever real-time wireless transmission of the 6G technology.
According to South China Morning Post, the study team from the China Aerospace Science and Industry Corporation Second Institute used terahertz orbital angular momentum communication technology.
In the electromagnetic spectrum, a frequency range between 100 GHz and 10 THz is referred to as terahertz.
In the experiment, the group produced four distinct beam patterns at a frequency of 110 GHz using a specific antenna.
They considerably improved the efficiency of bandwidth consumption by using those patterns to achieve real-time wireless transmission at a pace of 100 gigabits per second on a 10 GHz bandwidth.
The report states that this technique could eventually be used for short-range broadband transmission fields, enabling high-speed communication between lunar and Mars landers as well as between spacecraft and within spacecraft.
