Answer units Question 4 (1 point) You are given Vi 0.00 (consider this exact, no uncertainty),...
Question 3 (1 point) Saved You are given Vi -0.00 (consider this exact, no uncertainty), and vf 162 t0.09 m/s, and x = 0.37±0.01 m. Using the kinematic equation given in the introduction, find the acceleration. Your Answer: 0.495 m/sA2 Answer units
Answer units Question 2 (1 point) o.10 m down the track. What is the percent The cart rolls a distance of uncertainty in the distance? Az 1.67 Your Answer: Answer units Question 3 (1 point) You are given vi 0.00 (consider this exact, no uncertainty), and U 1.62 ± 0.09 m/s, and △z = 0.37±0.01 m. Using the kinematic equation given in the introduction, find the acceleration. Your Answer Answer units
Answer units Question 6 (1 point) Using the new values below, what is the absolute uncertainty in the speed of the marble as it passes through the photogate? (Hint: Just like you calculated in previous problem you will need to find the percent uncertainty for the speed. Then use that to find the absolute uncertainty.) t 0.021 0.003 s d = 2.54 ± 0.03 cm Your Answer: Answer units
cm/s Answer units Question 6 (1 point) Saved Using the new values below, what is the absolute uncertainty in the speed of the marble as it passes through the photogate? (Hint: Just like you calculated in previous problem you will need to find the percent uncertainty for the speed. Then use that to find the absolute uncertainty.) t-0.024土0.003 s d 2.54 0.03 cm Your Answer: cm/s Answer units Submit Qulz 6 of 6 questions save 曲姇
QUESTION 2 ONLY Question 1:(1 point) Consider the curves y = 7z2 +4x and y =-z2 + 4 a) Determine their points of intersection (x^,y1) and (x2,2),ordering them such that xi < x2 What are the exact coordinates of these points? ,y1= b) Find the area of the region enclosed by these two curves. t0.001 Give its approximate value within Answer: Question 2: (1 point) Let S be the solid with flat base, whose base is the region in the...
Question 1 (1 point) Cart e Sensor In lab you will roll a cart down a nearly frictionless incline set at a small angle (see image). The cart will start at rest and travel a set distance. After travelling, the flag will pass throu photogate in order to measure the speed. f (the speed at the end of the trip). From the time measured by the photogate you calculate the final velocity to be vf- 1.84 :0.09 m/s. What is...
Question 4 1 pts A physics student records the data in the table below during a 1-D motion experiment with constant acceleration. Unfortunately he forgets to properly label the table before emailing it to his lab partners for analysis. As a result, they have to use their knowledge of kinematics to figure out how the table is organized and what the rows and columns represent. Use your knowledge of kinematics to select the correct answer below. Assume that all units...
Question 2 4 pts Question 1lb) If viscous effects are negligible, determine the flow rate Qt (m3/s) at Point 1 in the large pipe if h-5.8 m and V2 66m/s The density of water is 1000 kg/m3. Atmospheric pressure Patm 101.325 kPa. Gravitational acceleration g- 9.81 m/s Your answer should be in m3/s and accurate to4d.р. Question 3 3 pts If viscous effects are negligible, determine the gauge pressure p1 (kPa) at Point 1 in the large pipe for Q1...
please answer all A car is going with a constant tangential acceleration (i.e. increasing speed) in a circular path. As seen from above, the path is counter-clockwise. It crosses the point 'A' at time 0.00, at which point its speed is known. Find the direction of its centripetal acceleration at some time after it crosses the point A:Write your answer in degrees. Given: Speed when it crosses point 'A' - V-3.6 m/s, tangential acceleration a 3.6 m/s2, radius of path...
please answer the following question with detailed step 1 1. Consider vi = 2 V2 = a and v3 = -1 (a) Find the value(s) of a such that 01,02 and v3 are linearly dependent and write Vi as a linear combination of v2 and 03, if possible. (b) Suppose a = 0, write v = 2 as a linear combination of v1, V2 and 03. (c) Suppose a = 0, use the Gram-Schmidt process to transform {V1, V2, V3}...