mass m is attached to a spring with spring constant k, as shown in the figure below. 0.2 m wwww. he mass is pulled to the right a distance of 0.2 m and released. Rank the following spring-mass combinations according to their oscillation periods from longest to shortest. If any combinations ave the same period, give them the same rank. You should assume that there is no friction between the mass and the horizontal surface. (Use only ">" or "=" symbols. Do not include any arentheses around the letters or symbols.) a. k = 0.3 N/m; m = 0.25 kg b. k = 0.3 N/m; m = 0.50 kg c. k = 0.3 N/m; m = 1.00 kg d. k = 0.6 N/m; m = 0.25 kg e. k = 0.6 N/m; m = 0.50 kg

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A mass m is attached to a spring with spring constant k, as shown in the figure below. 0.2 m wwww The mass is pulled to the right a distance of 0.2 m and released. Rank the following spring-mass combinations according to their oscillation periods from longest to shortest. If any combinations have the same period, give them the same rank. You should assume that there is no friction between the mass and the horizontal surface. (Use only ">" or "=" symbols. Do not include any parentheses around the letters or symbols.) a. k = 0.3 N/m; m = 0.25 kg 0.3 N/m; m = c. k = 0.3 N/m; m = d. k = 0.6 N/m; m 0.50 kg 1.00 kg 0.25 kg b. k e. k = 0.6 N/m; m = 0.50 kg