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@D33jW
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🐾🐻🐾 Bros Beast - Breed Bros 🐾🐻🐾 DAY 18 / FLOWER 0 / WEEK 3 Gens: Hulkmania x Muffin Berry You can buy this great genetics on Web side: https://breedbros.com/ I hope it will be a real beast 😄😄 She So far it is doing very well, it has beautiful wide leaves and its lower parts are growing quite well 🙌 I think that next week it will be moved to a large tent and planted in a large pot. Hope all will go this way to the end 🙏 THX for watching and see you next week 👊
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The wedding cake is ok for this week I'm curious to see how it comes out . This week I started to feed again because on my auto I have noticed that it started to get what looks like a calmag issue. And it's in the same soil to. She has very tight internode spacing also a indica look to her will grow her out for a while yet before switching to flower .I like to have 1 big photo period and a main crop of autos .thank you for looking at the diary and will be updating every week 👍
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I gave Isopropyl alcohol 70% equal parts water, 1 tsp cayenne, and kept enough for multiday application, what little population of aphids is left I shall catch them the next morning, opening the tent 10 min before lights on the clovers have yet to open, all the aphids hiding on undersides are easily visible, still none ever went near cannabis plant. Clovers are far tastier it seems. The alcohol kills on contact, the idea was to saturate the leaves with a light foliar application, and once I was done I ran it through the canopy with my hands making sure as much of the clover surface came in contact with the iso, once done turned on the fans and evaporate it quickly. iSOPRO......ops caps . ... beautiful thing about Isopropyl is that it evaporates rapidly at room temperature way below boiling point leaving behind zero residual so nothing seeps its way into rootzones unless you spill it there. It is a magical solvent that leaves no trace that it was ever there. Brain suggests I should create a secondary toroidal field with the same frequency and place it so it emits from the same reference point on the plant, (ZEPHERIUM) constructive interference suggests it should increase in size. If the toroidal field dictates the proportions, does increasing the toroidal size increase the proportions? Need identical genetic clones. Resonant Frequency: My first real-life experience of this was placing a grape in a microwave as a child. A resonant frequency is the natural vibrating frequency of an object and denoted as ‘f’ with a subscript zero (f0). When an object is in equilibrium with acting forces and could keep vibrating for a long time under perfect conditions, this phenomenon is resonance. In our daily life example of a resonant frequency is a pendulum. If we pull back the pendulum and leave, it will swing out and return at its resonant frequency. Objects combine to form a system, this system can have more than one resonance frequency. The resonant frequency is termed as the resonance frequency. The phenomena of resonant frequency used in the series circuit when the inductive reactance (XL) is equal to the capacitive reactance (XC). If the value of supply frequency is changed, we can observe that the value inductive reactance (XL) and capacitive reactance (XC) is also changed. Inductive reactance (XL) and capacitive reactance (XC) are inversely proportional to each other. When we increase the frequency, the value of XL increases, whereas the value of XC decreases. When we decrease the frequency, the value of XL decreases whereas the value of XC increases. At series resonance, when XL = XC. The mathematical equation of resonant frequency is: XL = 2πfL; XC = 1/2πfC XL = XC 2π f0L = 1/ 2πf0C ; f0=1/2π sqrt{LC} Where f0 is the resonant frequency, L is the inductance, C is the capacitance How to Calculate the Resonant Frequency of an Object? An object exposed to its resonant frequency can vibrate in symphony with the sound. The wavefronts pushing on the object will arrive at just the right time to push the object with greater and greater amplitude in each cycle. To get a clear idea of this concept one of the best examples is pushing a friend on a swing. If you push the swing randomly, the swing will not move very well but if you push the swing at a specific time, the swing will get higher and higher. Another example to find the resonant frequencies is to place the object next to a speaker and place a microphone attached to an oscilloscope next to the object. Then play the sound in the speaker at a given volume, and then without changing the volume slowly change the frequency. Now observe the oscilloscope, you will observe that at certain frequencies the amplitude of the wave, is proportional to the volume of the sound that the microphone is able to pick up. The frequency that is caught by the microphone will be greater than at surrounding frequencies. These are the resonant frequencies and are detectable as the sound energy absorbed by the object is re-emitted more efficiently at these frequencies. The precise moment that constructive interference happens the amplitude of the wave will spike at the precise frequency emitted. Q: Compute the resonant frequency of a circuit whose inductance is 25mH and capacitance is 5mu F? A: Known values are, L = 25mH = 25 x 10-3 H C = 5mu F = 5 x 10-6 F Formula for resonant frequency is, f0= 1/2π sqrt{LC}1/2π√L f0=1/2 ͯ 3.14√ (25 ͯ 10-3 ͯ 5 ͯ 10-6) = 450.384Hz Why Neodymium? Ferromagnetism is an exciting phenomenon observed in certain materials, known as ferromagnetic materials, that can retain their magnetization even after removing an external magnetic field. Ferromagnetic materials can become ferromagnets and interact strongly with other magnets and magnetic fields. A characteristic of ferromagnetic materials is their magnetization ability, distinguishing them from paramagnetic and diamagnetic materials, where weak magnetism exists temporarily. This unique property allows for making permanent magnets widely used in various applications such as motors, generators, speakers, and data storage devices. The ability to generate and maintain a magnetic field without the need for a constant external source of power makes ferromagnets highly valuable. An alloy of neodymium, iron, and boron discovered in the 1980s is ferromagnetic, yielding permanent magnets over 1000 times stronger than anything ever seen before. The name neodymium comes from the Greek neos didumous, which means "new twin." Neodymium magnets are made of an alloy of neodymium, boron, and iron. This allows them to simultaneously store impressive amounts of magnetic energy while being highly resistant to demagnetization. Because iron oxidizes quickly, neodymium magnets are coated to prevent rust from accumulating. The attraction between two neodymium magnets is so strong that if placed close enough together, they can collide and shatter. Neodymium magnets have an unusually high-temperature resistance, and they can even withstand heat exceeding 200 degrees Celsius. N50UH 1-1/2"OD x 1.065"ID x 3/8"
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@valiotoro
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Hello everyone week 4 of flower has passed for this Cinderella Jack auto 👸🏼 For the feeding schedule i stopped feeding Power Roots and Pure Zym and started feeding Green Sensation 0,5/l Mars hydro FC-E6500 power 75% have a great day and wish you all happy growing 😎
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@VanTheMan
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Start of week Height = 50cm She has reached a total height of 50cm so far and have grown almost 20 cm in a week, her flowers are starting to grow all over, she really enjoys being under the Qboard. 13/02-2024 - Day 43 - Watered 2.8L 15/02-2024 - Day 45 - She is really growing and has reached 55 cm height, her flowers are starting to gain size aswell. 17/02-2024 - Day 47 - Watered 2,1L, my baby has reached 57 cm and damned she has ALOT of buds im really excited about this cutie 😍 19/02-2024 - Day 49 - End of week I had considered trying out defoliation on her, as i think she has grown very bushy and might spend energy on branches that wont produce any good yeild. i reconsidered due to the advices i got from my question. i will continue without defoliation and keep gently bending fanleaves so they dont block light. She has been growing a lil less taller this week than the previous, but her buds are starting to look nice, and they are ALL OVER her 😍 the first trichs are appearing. Height = 61cm
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3ª VEGETATIVA : La giovane BISCOTTI {ZAMNESIA} cresce bene nel nuovo vaso. Abbiamo cambiato il ciclo vitale e siamo passati a 12/12(.. In realtà 13/11☺️)! La MARS HYDRO TSL2000 è stata avvicinata alla cima ad una distanza di circa 30cm,dove cerchiamo di avere un 50000 lumen. Attendiamo con pazienza i primi peletti bianchi 💐
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This week was ok I have noticed that she is started to go into pre-flower may be my last week on grow. I don't think she's going to be a big plant because she is going into flower at that size . but I have a lot of work to do with them autos anyway and I knew that from the start .The other plant that I have I've noticed may have a calmag issue. so I have added sensei calmag extra to the mix I would normally do that in coco anyway but didn't think it would need it in the soil but obviously does. I will post a question with a picture of it today to so you can have a look and decide what the issue is but I think it may be a calmag issue thank you for looking at the update and we'll be one every week 👍
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@artems
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In Scrooge's 6th week of vegetation, some leaves drooped, showing signs of light burn. I reduced light intensity to 60%. Two weeks ago, there was overwatering, but it seems to have recovered. Watching and waiting.
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@Budhunter
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As I did the flushing in day 68 I was watching the trichomes and on day 87 I could see 25-35% amber so I decided to cut it. I cut the whole plant on the base and hang them all to dry. For this reason I will update my findings later when it gets dry and trimmed. So far really happy with the results. It won’t yield much but the quality is impressive
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2/17/24 - Day 103 - The flush starts today! By Thursday I'll be giving her the chop. 2/19/24 - Day 105 - Flush is going well. Buds are still plumping up nicely. 2/21/24 - Day 107 - Ok this is the last day shes at the end of the Flush. Ill start a new week tomorrow, when I open the box up at 9am its chop time! I spent the day preparing, cleaning my workspace. Gathering all my tools, gloves, drying racks, etc. Here are the last pictures you guys are going to see of her growing. Enjoy!
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I gave Isopropyl alcohol 70% equal parts water, 1 tsp cayenne, and kept enough for multiday application, what little population of aphids is left I shall catch them the next morning, opening the tent 10 min before lights on the clovers have yet to open, all the aphids hiding on undersides are easily visible, still none ever went near cannabis plant. Clovers are far tastier it seems. The alcohol kills on contact, the idea was to saturate the leaves with a light foliar application, and once I was done I ran it through the canopy with my hands making sure as much of the clover surface came in contact with the iso, once done turned on the fans and evaporate it quickly. iSOPRO......ops caps . ... beautiful thing about Isopropyl is that it evaporates rapidly at room temperature way below boiling point leaving behind zero residual so nothing seeps its way into rootzones unless you spill it there. It is a magical solvent that leaves no trace that it was ever there. Brain suggests I should create a secondary toroidal field with the same frequency and place it so it emits from the same reference point on the plant, (ZEPHERIUM) constructive interference suggests it should increase in size. If the toroidal field dictates the proportions, does increasing the toroidal size increase the proportions? Need identical genetic clones. Resonant Frequency: My first real-life experience of this was placing a grape in a microwave as a child. A resonant frequency is the natural vibrating frequency of an object and denoted as ‘f’ with a subscript zero (f0). When an object is in equilibrium with acting forces and could keep vibrating for a long time under perfect conditions, this phenomenon is resonance. In our daily life example of a resonant frequency is a pendulum. If we pull back the pendulum and leave, it will swing out and return at its resonant frequency. Objects combine to form a system, this system can have more than one resonance frequency. The resonant frequency is termed as the resonance frequency. The phenomena of resonant frequency used in the series circuit when the inductive reactance (XL) is equal to the capacitive reactance (XC). If the value of supply frequency is changed, we can observe that the value inductive reactance (XL) and capacitive reactance (XC) is also changed. Inductive reactance (XL) and capacitive reactance (XC) are inversely proportional to each other. When we increase the frequency, the value of XL increases, whereas the value of XC decreases. When we decrease the frequency, the value of XL decreases whereas the value of XC increases. At series resonance, when XL = XC. The mathematical equation of resonant frequency is: XL = 2πfL; XC = 1/2πfC XL = XC 2π f0L = 1/ 2πf0C ; f0=1/2π sqrt{LC} Where f0 is the resonant frequency, L is the inductance, C is the capacitance How to Calculate the Resonant Frequency of an Object? An object exposed to its resonant frequency can vibrate in symphony with the sound. The wavefronts pushing on the object will arrive at just the right time to push the object with greater and greater amplitude in each cycle. To get a clear idea of this concept one of the best examples is pushing a friend on a swing. If you push the swing randomly, the swing will not move very well but if you push the swing at a specific time, the swing will get higher and higher. Another example to find the resonant frequencies is to place the object next to a speaker and place a microphone attached to an oscilloscope next to the object. Then play the sound in the speaker at a given volume, and then without changing the volume slowly change the frequency. Now observe the oscilloscope, you will observe that at certain frequencies the amplitude of the wave, is proportional to the volume of the sound that the microphone is able to pick up. The frequency that is caught by the microphone will be greater than at surrounding frequencies. These are the resonant frequencies and are detectable as the sound energy absorbed by the object is re-emitted more efficiently at these frequencies. The precise moment that constructive interference happens the amplitude of the wave will spike at the precise frequency emitted. Q: Compute the resonant frequency of a circuit whose inductance is 25mH and capacitance is 5mu F? A: Known values are, L = 25mH = 25 x 10-3 H C = 5mu F = 5 x 10-6 F Formula for resonant frequency is, f0= 1/2π sqrt{LC}1/2π√L f0=1/2 ͯ 3.14√ (25 ͯ 10-3 ͯ 5 ͯ 10-6) = 450.384Hz Why Neodymium? Ferromagnetism is an exciting phenomenon observed in certain materials, known as ferromagnetic materials, that can retain their magnetization even after removing an external magnetic field. Ferromagnetic materials can become ferromagnets and interact strongly with other magnets and magnetic fields. A characteristic of ferromagnetic materials is their magnetization ability, distinguishing them from paramagnetic and diamagnetic materials, where weak magnetism exists temporarily. This unique property allows for making permanent magnets widely used in various applications such as motors, generators, speakers, and data storage devices. The ability to generate and maintain a magnetic field without the need for a constant external source of power makes ferromagnets highly valuable. An alloy of neodymium, iron, and boron discovered in the 1980s is ferromagnetic, yielding permanent magnets over 1000 times stronger than anything ever seen before. The name neodymium comes from the Greek neos didumous, which means "new twin." Neodymium magnets are made of an alloy of neodymium, boron, and iron. This allows them to simultaneously store impressive amounts of magnetic energy while being highly resistant to demagnetization. Because iron oxidizes quickly, neodymium magnets are coated to prevent rust from accumulating. The attraction between two neodymium magnets is so strong that if placed close enough together, they can collide and shatter. Neodymium magnets have an unusually high-temperature resistance, and they can even withstand heat exceeding 200 degrees Celsius. N50UH 1-1/2"OD x 1.065"ID x 3/8"
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This week was the last one for the Cashew Kush and the Blackberry Cake! I watered them with clear water 2 times before the harvest. I will harvest the Jack Herer in one week.
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2/17/2024 Day 28 from sprout Yeah so they're going bonkers now 😁 gave them nutrients for the first time a couple days ago. I decided to bend the tops over to keep a nice even canopy 👍 Looks like I have two different phenotypes so that should keep things interesting 😜 They are starting to get stinky and white pistils poppin everywhere. Lights at 75% for now. Thanks for the view and happy growing 😎
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2/17/2024 - Vegetation Week 1 Day 1- I removed some of the water to see where the roots were only one had roots in the water. However I want to go ahead and get them on Week one Nutes So I am over 50 gallons of water in the system so I mixed the Trio at a 1.0mil per Gallon but restricted it to a top of 50 gallons period. I top fed the other two to keep encouraging root growth. I also finished my drying and curing from my last run and wanted to show what it looks like all bagged up and in the cannatrol. I added the following Nutes: Silica = .5Mil/Gal= 25Mil CalMag= .75Mil/Gal= 37.5Mil FloraMicro = 1Mil/Gal= 50Mil FloraGro= 1Mil/Gal= 50Mil FLoraBloom= 1Mil/Gal= 50Mil ORCA = .5Mil/Gal= 25Mil EPSOM- 1 big pinch 2/18/2024 - Vegetation Week 1 Day 2- I top fed #1 and #3 since they still don't have roots in the water, I will continue one top feed a day until roots hit water. 2/19/2024 - Vegetation Week 1 Day 3- #3 now has root in the water.. Yay!! I now have #2 and #3 with roots in the water so no top feed for them. I only had to top feed #1 and the only reason I didn't just go ahead and cull her today was I am responsible for breaking her tap root and stunting her, I wasn't careful enough and she was the first to show a good root. In that vain I will carry her a few more day's top feeding but if not root by the end of the week she is getting culled. 2/20/2024 - Vegetation Week 1 Day 4- Today I Ensured the PH is in range, I refilled the Humidifiers, I top fed #1 since the roots are still not in the water. I also removed the humidity shields from #2 and #3 today the ladies were touching the sides so they are done with the extra shields.. 2/21/2024 - Vegetation Week 1 Day 5- Today Morning: I Ensured the PH is in range, I refilled the Humidifiers, I top fed #1 since the roots are still not in the water, Evening: I decided that the roots of the two are looking great so I am going to drain and bump the Nutes to a full Week 1/ Week 2 Nute base. I added 36 Gallons I added the following Nutes: Silica = .5Mil/Gal= 18Mil CalMag= .75Mil/Gal= 27Mil FloraMicro = 3Mil/Gal= 108Mil FloraGro= 2Mil/Gal= 72Mil FLoraBloom= 2Mil/Gal= 72Mil ORCA = .5Mil/Gal= 18Mil 2/22/2024 - Vegetation Week 1 Day 6- Today I Ensured the PH was not too high as the system continues to cycle the water and adjust, I refilled the Humidifiers, I top fed #1 since the roots are still not in the water, 2/23/2024 - Vegetation Week 1 Day 7- Still have to Top Feed #1 no roots in the water, however she is still progressing nicely slower than her sisters with roots in the water but still going strong.
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I had alot of issues with my environment, tools, auto-watering, So I did alot of mistakes, but I could take some clones that I'll use in a next run but I wont create a new diary for it. 👋👋👋
Cherry X · Custom Breeder & Strain
Fission 300W · Custom
Vega 80x80 | Flora 120x 120 · Custom
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Calcium Chloride ·
Monopotassium phosphate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Monopotassium phosphate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Calcium Chloride ·
Monopotassium phosphate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Monopotassium phosphate ·
Plant Prod 07-11-27 ·
YaraTera Calcium Nitrate 15-0-0 ·
Basafer Plus Ferro 6% ·
Magnesium Sulfate ·
Monopotassium phosphate ·