the figure. The coefficient of static friction between the block and ice is μ = 0.100, and the coefficient of kinetic friction is μ = 0.030. 0= 25° as shown. a) Using the equations in Subpart 1 and Subpart 2 in Homework: Pushing a Block of Ice, Part 2, calculate the minimum force Fmin that must be exerted to get the block just moving. Enter to 3 significant figures F min = a = N 25° (b) Using the equations in Subpart 1 and Subpart 3 in Homework: Pushing a Block of Ice, Part 2, What is the acceleration of the block once it starts to move if the force from part (a) is maintained, that is, F= F, from part (a)? min Enter to 3 significant figures m/s²

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1. A contestant in a winter sporting event pushes a 45.0-kg block of ice across a frozen lake as shown in the figure. The coefficient of static friction between the block and ice is µ = 0.100, and the coefficient of kinetic friction is Mk² = 0.030. 0= 25° as shown. y a) Using the equations in Subpart 1 and Subpart 2 in Homework: Pushing a Block of Ice, Part 2, calculate the minimum force F that must be exerted to get the block just moving. min Enter to 3 significant figures F₁ min = a = N 25° (b) Using the equations in Subpart 1 and Subpart 3 in Homework: Pushing a Block of Ice, Part 2, What is the acceleration of the block once it starts to move if the force from part (a) is maintained, that is, F= Fr from part (a)? min Enter to 3 significant figures ✔m/s²