$W_in = F_in \times d_in = 300\text N \times 6\text m = 1800\text J$
Understanding Section 14.3: Mechanical Advantage and Efficiency $W_in = F_in \times d_in = 300\text N
He recalculated the ratio of output force to input force. A solid Efficiency: (Useful Work Out / Total Work In) x 100. The new result? Realistic. Believable. Passing. $W_in = F_in \times d_in = 300\text N
$W_in = F_in \times d_in = 300\text N \times 6\text m = 1800\text J$
Understanding Section 14.3: Mechanical Advantage and Efficiency
He recalculated the ratio of output force to input force. A solid Efficiency: (Useful Work Out / Total Work In) x 100. The new result? Realistic. Believable. Passing.