*** 191.26 Incorrect *** *** 191 Incorrect *** *** 191.26N/m Incorrect *** *** 191.26N/m Incorrect *** The left side of the figure shows a light (`massless') spring of length 0.350 m in its relaxed position. It is compressed to 74.0 percent of its relaxed length, and a mass M= 0.190 kg is placed on top and released from rest (shown on the right). The mass then travels vertically and it takes 1.50 s for the mass to reach the top of its trajectory. Calculate the spring constant, in N/m. (Use g=9.81 m/s²). Assume that the time required for the spring to reach its full extension is negligible.

*** 191.26 Incorrect *** *** 191 Incorrect *** *** 191.26N/m Incorrect *** *** 191.26N/m Incorrect ***

The left side of the figure shows a light ('massless') spring of length 0.350m in its relaxed position. It is compressed to 74.0 percent of its relaxed length, and a mass M=0.190kg is placed on top and released from rest (shown on the right). I he mass then travels vertically and it takes 1.50s for the mass to reach the top of its trajectory. Calculate the spring constant, in N/m. (Use g=9.81m/s2 ). Assume that the time required for the spring to reach its full extension is nealiaible. Tries 5/10 Previous Tries