Three different objects, all with different masses, are initially at rest at the bottom of a set of steps. Each step is of uniform height d. The mass of each object is a multiple of the base mass m: object 1 has mass 4.00m, object 2 has mass 2.46m, and object 3 has mass m. When the objects are at the bottom of the steps, define the total gravitational potential energy of the three-object system to be zero. Each answer requires the numerical coefficient to an algebraic expression that uses some combination of the variables m, g, and d, where g is the acceleration due to gravity. Enter only the numerical coefficient. (Example: If the answer is 1.23mgd, just enter 1.23) If the objects are positioned on the steps as shown, what is gravitational potential energy Ug.system of the system? If you redefine the reference height such that the total potential energy of the system is zero, how high ho above the bottom of the stairs is the new reference height? Now, find a new reference height h (measured from the base of the stairs) such that the highest two objects have the exact same gravitational potential energy. Ug.system = ho ho || 0.40 Incorrect 3.63 Incorrect 2 17.92 3 mgd d

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Three different objects, all with different masses, are initially at rest at the bottom of a set of steps. Each step is of uniform height d. The mass of each object is a multiple of the base mass m: object 1 has mass 4.00m, object 2 has mass 2.46m, and object 3 has mass m. When the objects are at the bottom of the steps, define the total gravitational potential energy of the three-object system to be zero. Each answer requires the numerical coefficient to an algebraic expression that uses some combination of the variables m, g, and d, where g is the acceleration due to gravity. Enter only the numerical coefficient. (Example: If the answer is 1.23mgd, just enter 1.23) If the objects are positioned on the steps as shown, what is gravitational potential energy Ug.system of the system? If you redefine the reference height such that the total potential energy of the system is zero, how high ho above the bottom of the stairs is the new reference height? Now, find a new reference height h (measured from the base of the stairs) such that the highest two objects have the exact same gravitational potential energy. Ug.system = ho = h = 0.40 Incorrect 3.63 Incorrect 17.92 mgd d d < Feedback Macmillan Learning The gravitational potential energy of an object near Earth's surface is just the product of the object's mass, the acceleration due to gravity, and the height of the object above an arbitrarily chosen reference height h. Ug = mgh You can find the potential energy of each individual object by inserting the appropriate mass and height for each one. The first two parts of the problem, however, ask about the total potential energy of the three-object system, which is simply the sum of the potential energies of each idual object. For the second and third parts of the problem, it will be helpful to declare a new variable to represent the new reference height. That will allow the gravitational potential energy to be written in terms of this variable.