I have two gears,,,driver diameter 192driven diameter 112,,, we want add idler gear to make same speed of driver and driven,,, how can we calculate idler gear please help🙏
Of course. Supply more power to the input shaft. But the output will still have increased torque OR speed from the input. Whichever is not increased will decrease. Think of gears like a ramp. A long, shallow ramp (high torque, low rpm output gear) will decrease effort felt in the short term but will take longer than a set of stairs to go up. A short, steep ramp (high rpm, low torque) decreases distance, but increases the effort required. It's about rate of force production vs the work being done. If you want to do a lot of work quickly, you will need more energy input to the system. To put things simply, if you want things to be done quickly and powerfully you need more energy input to the system. There is no free lunch.
Anti-Clockwise is what we say in England
I have two gears,,,driver diameter 192driven diameter 112,,, we want add idler gear to make same speed of driver and driven,,, how can we calculate idler gear please help🙏
thankyou very much bro!
Thank you
i was hoping for a torque example... nice video.. thanks!
a tip: you can watch movies at flixzone. Me and my gf have been using them for watching a lot of movies recently.
@Nathaniel Matthias Yup, I've been watching on flixzone} for months myself =)
@Nathaniel Matthias yup, I have been using flixzone} for months myself :D
Is there a way to get high torque and high rpm with compound gears?
Punit Patel no. You need to trade one for another
nope that would violate the work-energy theorem and conservation of energy. If you could you'd have a perpetual motion machine
Of course. Supply more power to the input shaft. But the output will still have increased torque OR speed from the input. Whichever is not increased will decrease. Think of gears like a ramp. A long, shallow ramp (high torque, low rpm output gear) will decrease effort felt in the short term but will take longer than a set of stairs to go up. A short, steep ramp (high rpm, low torque) decreases distance, but increases the effort required. It's about rate of force production vs the work being done. If you want to do a lot of work quickly, you will need more energy input to the system. To put things simply, if you want things to be done quickly and powerfully you need more energy input to the system. There is no free lunch.