 , अगर disproportion करственदत, ओछ subconscious, लग वो जोगा वorgeous, �ance ओछघर, अगर ऋे फाँमुवात्ः原因, रलीग, लगpected, अगर चयूए दो चयूए अगराक्तःादीए दोमग़ा रसतेड़्टेइदा अगर ब्रदी़ ज़ाईब़। अश्थ कराँईदेखादेखाएदोंगाचाईगचाईग्चाईदेगचाईईगचाईगughteraakreaka japatheak या मुस्ट अप टाग्टा केमिका रेख्छन देर्खवार एटिपी अप आनीमल से हैं, पलाईच से हैं, बकतेरीया हैं, फन्जाई हैं जितनी बटाएब के लिविंग आर्गनिजम से हैं, सब केंदर यो एनरजी करन्सी या वो एटिपी हैं ब्रेग्डाओन अप फास्ट फेट ग्रुप, फास्ट फेट ग्रुप क्छोंके खोओ लेंद बाण के खुछ हैं, तो इसे ब्रेग्डाँन से या एनरजी रेख्ट लीज हो गी, तो यो एनरजी रेखट लीज होती आप आब 3.7 किलो कालरी कालरीज मोल यहती कि मोल अटात्यकयों ब्यक वताअ, तो if there's one molecule A.T.P. which we should break down. अटी ब मेंगे चिलनों ढास Bennett अढब तो A.T.P. करये मञा सब घीजा दिए express You'll be at An tyres in 3antonal capacity of 3 pendant प्रत�视द भीatkे ईचा Audio और तुलवी उन� DuH ब़ेक costs, भे कि लिराव anniversary is आप औॉक काball। we will obtain 7.3 kilocalories of ATP. the name of the breakdown of hydrolysis is given. you can see in this diagram in the top, when a molecule is breakdown of ATP in the presence of water, ATP breaks hence we call it hydrolysis hydrolysis means that in the presence of water, there is a breakdown of any molecule so if ATP is breakdown, it will become ADP these organisms will be separated and we will obtain 7.3 kilocalories of energy in the presence of ATP, we said that there are two high energy bonds the first bond will become ADP similarly, when a molecule is breakdown of ADP the second phosphate group will be separated it will be converted into AMP adenosine monophosphate and again the energy will be 7.3 kilocalories adenosine monophosphate is not further breakdown if cell needs energy it will break down ATP it will become ADP it will get more energy if cell needs further energy and doesn't have ATP then it will be breakdown of ADP and it will be made into AMP but if AMP is further breakdown it will not provide energy stability of ATP molecule ATP molecule is so stable but if we look at cell in cell, ATP molecule is synthesized mostly they are synthesized in mitochondria that's why we call mitochondria as power house of cell mitochondria is made into ATP the whole cell is circulated from there mitochondria is made into ATP it will get nucleoscope, cytoplasm cell membrane all molecules are provided with mitochondria and ATP but ATP never goes out of cell if cell needs ATP then it doesn't go out of cell if we look at ATP ATP is less stable molecule or relatively it is very unstable molecule ATP is made after some time it will break down and ATP will release ADP if it is not utilized then heat energy waste that's why whatever food we eat it doesn't convert to ATP in our body in fact it is stored in our cells whenever we need ATP food molecules or glucose it will get oxidation it will get breakdown or ATP ATP will be made together because it will be utilized together we can't store ATP for long time for long time