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A mass of 1.97 kg is placed on a vertical spring. What is the period, in seconds, of a mass-spring system if it has a spring constant of 49.55 N/m?
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- 13. DETAILS OBINPHYS8 2.P.028. ASK TEACHER A mass of 0.50 kg is attached to a relaxed spring with k = 2.6 N/m. The mass rests on a horizontal, frictionless surface. If the mass is displaced by 0.35 m, what is the magnitude of the force (in N) exerted on the mass by the spring? (Assume that the other end of the spring is attached to a wall and that the spring is parallel to the surface. Enter the magnitude.) If the mass is then released to execute simple harmonic motion along the surface, with what frequency (in Hz) will it oscillate? Hz ASK YOUR TEACHER 14. DETAILS OBINPHYS8 3.IVV.001.CHALLENGING.arrow_forwardMass Attached (kg) = .055 kg Spring Force (N) = .54 N Displacement (m) = .18 Spring Constant (N/m) = ? Spring Constant is, k = mg/xarrow_forwardA mass m at the end of a spring oscillates with a frequency of 0.78 Hz. When an additional 770 g mass is added to m, the frequency is 0.61 Hz. What is the value of m?arrow_forward
- A 273 g mass causes a 0.29 m change in length when hanging from a particular spring. Find the associated spring constant. O941.38 N/m O 9,226 N/m 92.26 N/m 0.941 N/marrow_forwardA 3 kg object attached to an ideal massless spring is compressed 1.2 m. If the spring constant is 45 N/m, find the magnitude of the spring force.arrow_forwardA force of 15.0 N is required to stretch a spring a distance of 5.20 cm. What is the force constant of the spring, in units of N/m?arrow_forward
- As shown below, a 3 kg block on a frictionless horizontal surface is attached to a cable and a 526 N/m spring. The block is in equilibrium (Fnet = 0) and the cable has a tension of 16 N. Determine the normal force on the block and how much the spring stretched. FN l=| xarrow_forwardA car with mass 1530 kg crashes into a wall. The car’s velocity immediately before the collision was 12.6 m/s and the bumper is compressed like a spring with spring constant 1.14 × 107 N/m. What is the maximum deformation of the bumper for this collision?Answer in units of m.arrow_forwardA 31.0 cm long spring is hung vertically from a ceiling and stretches to 36.9 cm when an 8.00 kg mass is hung from its free end. a. Find the spring constant (in N/m). b. Find the length of the spring (in cm) if the 8.00 kg weight is replaced with a 185 N weight.arrow_forward
- A mass of 0.50 kg is held against compressed spring and released from rest while upon a horizontal, frictionless surface. The spring constant of the spring is 790 N/m and the mass leaves the spring with a speed of 7.84 m/s. Assume that the spring pushes the mass across the surface. By what amount was the spring initially compressed relative to its equilibrium position? 0.197arrow_forwardQuestion in pic.arrow_forwardA mass of 2.55 kg is placed on a vertical spring. What is the frequency, in Hertz, of a mass-spring system if it has a spring constant of 46.12 N/m?arrow_forward
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