Select Scenario 2. Study the gravitational force acting between two 1.00 x 10-kg objects (approximate mass of a skyscraper ). Initially place the objects is 50.0 m apart , and then increment the distance by 25 m until you reach a distance of 250 m apart . For each distance , record the gravitational force in Table 2. Observations and Analysis Table 2 (space = city block ) Mass of Mass of Skyscraper Distance Apart (m) Gravitational Skyscraper 1(kg ) 2 (kg) Force (N) 1.00 x 10# 1.00 x 10 = 50.0 1.00 x 10a 1.00 x 10 75 1.00 x 10 1.00 x 10 = 100.0 1.00 x 10# 1.00 x 10 125 1.00 x 10 1.00 x 10 150 1.00 x 10 1.00 x 10 = 175 1.00 x 10- 1.00 x 10 = 200.0 1.00 * 10# 1.00 x 10 = 225 1.00 x 10 1.00 x 10 250 1. Using the data in Table 2, make a graph of gravitational force v. distance . Does this indicate a linear relationship ? Explain 2. Using the data in Table 2, make a graph of gravitational force v. 1/r. Does this indicate a linear relationship ? Explain 3. Using the data in Table 2, make a graph of gravitational force v. 1/r?. Does this indicate a direct relationship ? Explain . Exploration 3: Forces Between Planets Procedure Select Scenario 3. Adjust the masses of the two objects (each represent a planet ), and move them together and apart until the gravitational force between those two planets is 5.0 x 10 30 N. Record the masses and distance in Table 3