Dear Ma'am, I hope this message finds you well. I've been following your Satellite Communications UA-cam playlist and found it extremely helpful for my studies. However, I noticed that the lecture notes are not available on your blogspot. Would it be possible for you to upload the Satellite Communications notes on your blogspot or website? Alternatively, could you kindly share the notes via email? Having access to these resources would greatly assist me in preparing for my upcoming semester exams. Thank you in advance for your consideration. Sincerely,
Kepler second law should have been much better explanation because You are confusing S1 and S2 are different scenarios but you are telling like it travels from s1 to s2 in 1 second the area covered are same but later I understand that s1 is travelling some distance and s2 is travelling some distance if we calculate that in 1 sec both coverage of area are same as per the keplers second law
Thanks I will understand 👍
Thanks 😊😊😊🎉🎉🎉❤❤
Thanks 😊
Tq mam tomorrow my sem exam it is most helpful
Me
Hope you have done your exam well...
All time fav.
Dear Ma'am,
I hope this message finds you well. I've been following your Satellite Communications UA-cam playlist and found it extremely helpful for my studies. However, I noticed that the lecture notes are not available on your blogspot.
Would it be possible for you to upload the Satellite Communications notes on your blogspot or website? Alternatively, could you kindly share the notes via email? Having access to these resources would greatly assist me in preparing for my upcoming semester exams.
Thank you in advance for your consideration.
Sincerely,
Mam can u upload look angle determination derivation
I have notes with clear meaning
Thank you mam
Most welcome 😊..
Kepler second law should have been much better explanation
because You are confusing S1 and S2 are different scenarios but you are telling like it travels from s1 to s2 in 1 second the area covered are same but later I understand that s1 is travelling some distance and s2 is travelling some distance if we calculate that in 1 sec both coverage of area are same as per the keplers second law
Is this important?: Newton's law in the Kepler's law
Yes