17 An object of mass m is lifted a vertical distance h above the surface of Earth at constant speed v in time t. The total gravitational potential energy with respect to Earth's surface gained by the object is equal to the (1) average force applied to the object (2) total weight of the object (3) total work done on the object (4) total momentum gained by the object 18 A box weighing 1.0 x 10² newtons is dragged to the top of an incline, as shown in the diagram below.

please help with questions 17,18 and 19

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17 An object of mass m is lifted a vertical distance h above the surface of Earth at constant speed v in time t. The total gravitational potential energy with respect to Earth's surface gained by the object is equal to the (1) average (2) total weight of the object (3) total work done on the object (4) total momentum gained by the object 18 A box weighing 1.0 × 10² newtons is dragged to the top of an incline, as shown in the diagram force applied to the object below. 10.0 m 6.0 m Force 1.0 x 102 N 8.0 m- With respect to the bottom of the incline, the gravitational potential energy of the box at the top of the incline is (1) 1.0 x 10² J (2) 6.0 x 102 J (3) 8.0 x 102 J (4) 1.0 x 10° J 19 What is the spring constant of a spring of negligible mass that gains 6.0 joules of elastic potential energy as a result of being compressed 0.40 meter? (1) 2.4 N/m (3) 38 N/m (4) 75 N/m (2) 15 N/m