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15kg leverage at two feet out.
No, that's not how it works.
Give me a lever long enough and I can move the moon. Not something 10000 times smaller than the moon!
15kg leverage at two feet out.
Loads are vertical (due to gravity) at the top and bottom fixings. There is a pivot force but that is minor in comparison.The deeper the load placed on the wall, the greater the leverage on that wall. 30kg at one foot out, will exert a leverage of 60kg at two feet out from the wall.
Loads are vertical (due to gravity) at the top and bottom fixings. There is a pivot force but that is minor in comparison.
No, that's not how it works.
Give me a lever long enough and I can move the moon. Not something 10000 times smaller than the moon!
A shelf on 610mm Spur brackets will take the load with ease.Oh, no!
We now have to explain how a lever works!
A shelf of 600mm with a tumble drier on top of it will not stay there for long.
Generally it's because the centre tower is not bolted to a big massive house.I see, so why do they have to counterbalance tower cranes?
Generally it's because the centre tower is not bolted to a big massive house.
Not on this planet unfortunately.A shelf on 610mm Spur brackets will take the load with ease.
So you believe that the makers are lying. An interesting accusation, do you have proof?Not on this planet unfortunately.
It might take it there and then, but will inevitably fail and send the tumble drier tumbling down.
This usually happens at night...
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