Phys 244 Simple pendulum Online Fall 2022 (4)

Question #4 Can you please answer the below questions? Please do not skip any steps include ALL of your work and double check for accuracy. Thank you.

Period T vs. Dynamic mass md Data table attached. Mass of spring: ms=158.5 grams Dynamic mass: md=m+mh+ms/3

Item 9 IP A 0.60-kg mass is attached to a spring with a force constant of 27 N/m and released from rest a distance of 3.0 cm from the equilibrium position of the spring. Part A Give a strategy that allows you to find the speed of the mass when it is halfway to the equilibrium position. Essay answers are limited to about 500 words (3800 characters maximum, including spaces). 3800 Character(s) remaining Submit Part B Use your strategy to find this speed. Express your answer using two significant figures. V = Submit Request Answer VO ΑΣΦ Provide Feedback Request Answer ? m/s

Simple Pendulum Experiment 1. What are the possible source of error in experiment? 2.a Explain how mass of the pendulum bob is related/not related to the experiment. 2.b Explain how length of the pendulum related/not related to the experiment. Also how does it help to verify the earth's gravity. 3. Summarize/Conclude the expected outcome of the experiment using the relationship of the factors and how it verifies the earth's gravity.

Question #1   Can you please answer the below questions? Please do not skip any steps include ALL of your work and double check for accuracy. Thank you.

Pendulum Lab

Needs Complete solution with 100 % accuracy don't use chat gpt or ai i definitely upvote you. Be careful Downvote for ai or chat gpt answer.

Needs Complete  solution with 100 % accuracy don't use chat gpt or ai i definitely upvote you.  Be careful Downvote for ai or chat gpt answer.

Help with the following question The second photo is just equations

Needed to be solved correctly in 1 hour and get the thumbs up draw a diagram if needed

Mass vs. Period of Oscillation ... . ... .. 1 b............ 6 8 mass (kg) ....... Model 1 -- Model 2 What general pattern is shown on this part of the graph? Your answer: Period increases when mass increases. Period decreases when mass increases. The two variables seem to be independent of each other. (s) pouad

nstants I Perlodic Table Learning Goal: x(t) = A cos wt. To understand the application of the general harmonic equation to the kinematics of a spring oscillator. One end of a spring with spring constant k is attached to Now, imagine that we have exactly the same physical situation but that the x axis is translated, so that the position of the wall is now defined to be x = 0. (Figure 3) the wall. The other end is attached to a block of mass m. The block rests on a frictionless horizontal surface. The equilibrium position of the left side of the block is defined to be x = The initial position of the block is the same as before, but in the new coordinate system, the block's starting position is 0. The length of the relaxed spring is L. given by xnew (t = 0) = L+xinit - (Figure 1) The block is slowly pulled from its equilibrium position to some position xinit > 0 along the x axis. At time t = 0, Part D the block ie releasod with zoro initialvelocitu Figure 1 of 3 > Find the equation for…

FRQ 1 This question is a long free-response question. Show your work for each part of the question. ееееееее Figure 1 Figure 1 A group of students must determine the spring constant k of a spring that hangs vertically from a ring stand. The students attach a block to the bottom of the vertical spring, as shown in Figure 1. The students then pull the block- spring system 0.5 m below the system's equilibrium position and release the system so that it oscillates. The students record the mass M of the block and the period of oscillation T for several trials, as shown in the table.

Trial Applied Force (N) Displacement (m) 1 75N .375m 80N .400m 3 85N .425m 4 90N .450m 95N .475m CALCULATIONS: 1. Plot a graph of applied force vs. displacement, then use best-fit trendline and discuss the shape of it. What does it tell us about the motion of the oscillating object? 2. Calculate the slope of the line Recalling the Hook's Law, what does the slope of our graph represent? Can you find the experimental value of kexR from your graph?