Use a spreadsheet to graph this data. What is the spring constant of this spring? Give your answer to 2 significant figures
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- i need help creating a graph using excel or simular for my data in the attached photo. ThanksHow much force is required to pull a spring 0.060 m from its equilibrium position if the spring constant is 2,298 N/m? Do NOT include units Round your answer to the nearest whole, positive number Do NOT include a positive or negative sign4 10 15 20 Displacement (m) 6pring) 3 6. 2 N 5 lcm) 0-6 N IN .0.25N 10 7.2N 25N 0.SN 3.9 N 15 1.75N 3.5N 4.15 N IN 5.7N 20 2.45N 7.5N 3. い プ (N) avo
- what's the answer?Only two data points are collected an experiment to estimate a spring constant. The spring is located at 0 cm when 0g are attached to the spring. The spring displaces to 2 cm when 25 g are attached to the spring. Calculate the spring constant (inN/m).please include a step by step explanation along with the what variables are given what formulas to use and why
- Estimate the stiffness of the spring, kk (in N/m) in a child’s pogo stick if the child has a mass of 27 kg and bounces once every 2.6 seconds. Type your answer to within one decimal place. Use a period (full stop) for a decimal place, eg. 500.0 - Do not use a comma or input your answer in some form of scientific notation. Do NOT include units in your answer.Use the diagram to answer the questions A small block slides down a frictionless track whose shape is described by y = (x^2) /d for x<0 and by y = -(x^2)/d for x>0. The value of d is 2.29 m, and x and y are measured in meters as usual. Suppose the block starts from rest on the track, at x = -1.71 m. What will the block s speed be when it reaches x = 0? a. 5.01 m/s b. 3.54 m/s c. 1.06 m/s d. 8.02 m/s Same type of track as in the previous problem, this time with d = 3.60 m. The block starts at x = 0, and is given a push to the left with an initial speed of 2.23 m/s, so it starts sliding up the track to the left. At what value of x will the block reverse direction and start sliding back down? a. -0.25 m b. -0.96 m c. 0.96 m d. 0.25 mUse the following prompt for questions 1-2. Alexandra and Sal are conducting an experiment to study pendulums. In their first experiment, Alexandra and Sal changed the length of the pendulum and measured its period. In their second experiment, the mass of the pendulum bob was varied, and period was measured. 1. Before running the experiments, Sal hypothesized that increasing the mass of the pendulum would result in an increase in the pendulum's period. Was Sal correct? A. Sal was correct because mass is the only variable that will affect the period of the pendulum. B. Sal was correct because mass and length both affect the period of the pendulum. C. Sal was incorrect because only the length of the pendulum will affect the period of the pendulum. D. Sal was incorrect because only the initial angle will affect the period of the pendulum. inate Education TM, Inc.