Heres what I got for you. The uncertainty represented by the measurement "1.0569g" can be determined by looking at the number of decimal places in the measurement. In this case, there are four decimal places in the measurement.
Typically, in scientific measurements, the uncertainty is taken to be half of the smallest division that can be read directly from the measuring instrument. Since there are four decimal places, we can consider the uncertainty to be half of the value represented by the last decimal place, which is the thousandth's place (0.0001g).
So, the uncertainty for the measurement "1.0569g" is approximately ±0.0001g. This means that the actual value could be anywhere within ±0.0001g of the measured value, indicating a very high level of precision.