A person is pushing on a uniform block of wood as shown in the figure and parameter table. The block of wood has mass 140 kg and a coefficient of static friction of 4, w = 0.3. Assume the person only...

A person is pushing on a uniform block of wood as shown in the figure and parameter table. The block of<br>wood has mass 140 kg and a coefficient of static friction of 4, w = 0.3. Assume the person only exerts a<br>horizonatal force on the block of wood, and their shoes have a coefficient of static friction Hs,p = 0.4.<br>What is the minimum mass the person needs to be able to move the block? Also, what is the maximum<br>value of 4s,w that the wood could have and still slide instead of tip if pushed at the same location?<br>L3<br>value<br>units<br>parameter<br>L<br>L2<br>La<br>1.7<br>m<br>1.1<br>2.8<br>Minimum mass of person =<br>kg<br>Maximum value of us,w<br>before block would tip =<br>

Extracted text: A person is pushing on a uniform block of wood as shown in the figure and parameter table. The block of wood has mass 140 kg and a coefficient of static friction of 4, w = 0.3. Assume the person only exerts a horizonatal force on the block of wood, and their shoes have a coefficient of static friction Hs,p = 0.4. What is the minimum mass the person needs to be able to move the block? Also, what is the maximum value of 4s,w that the wood could have and still slide instead of tip if pushed at the same location? L3 value units parameter L L2 La 1.7 m 1.1 2.8 Minimum mass of person = kg Maximum value of us,w before block would tip =

Jun 11, 2022

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A person is pushing on a uniform block of wood as shown in the figure and parameter table. The block of wood has mass 140 kg and a coefficient of static friction of 4, w = 0.3. Assume the person only...

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