Lab 3 Data Write the equation of best fit for the x direction velocity vs time...
5. During a lab, you measure the below data of velocity vs. time for a cart undergoing constant acceleration in an experiment. What is the acceleration of your cart? Velocity vs. Time 200 180 160 140 y(t)-b+mt Fit Result: 120 100 b-0.5 80 m-2 60 40 20 180 12 40 60 80 100 Time [s] 10 Velocity [m/s] 20
Please help with this Kinematics question! Velocity vs. time
graph.
3. Consider this velocity vs. time graph. (a)* At what times does the obect change direction? (m's o How do you know? 10 -1 t (seconds) (b) What is the object doing at t-6 s and -9 s. (Hint: It's not changing direction.) (c) In which direction is the object moving at-7s? Explain. (d) At what time is the object farthest from its initial position? How do you know? (e)"...
See the example Capstone graph from the Lab Manual (Figure 3, a
velocity vs. time curve). What region of this graph represents the
time when the cart is moving down the incline?
1) From A to C
2) From B to C
3) From A to B
I am not certain how to answer this. Please help as soon as
possible? Thank you?
2nd Question:
See the example Capstone graph from the Lab Manual (Figure 3, a
velocity vs. time...
Please note that X is
time
Value Position vs Time Linear Fit m y = mx + b Quadratic Fit Α. B 0.305 -0.0583 y=0.305x -0.0583 4 1 0.110 -0.0663 0.195... yöllx'-0.0663x7.195 |(1.550, 0.359) 1(1.600,0.373) 0.28 y = Ax?+ Bx + C (x1, yı) (x2, Y2) Slope For Position vs Time data: (a) Did your quadratic fit of this graph provide initial position? If yes, what is its value? (4 points) (b) Did your quadratic fit of this graph provide...
31. Sketch the velocity-versus-time graph from the following position-versus-time graph Position vs. Time 10- 8 6 4 2 -4 -6 -8 10- O. 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 2 Time (s)
In the lab you obtained a velocity vs. time graph when a person was moving on a straight line with constant velocity away from the motion sensor. You highlighted a region of data containing 5 points with the following values of velocity: 0.38, 0.26, 0.29, 0.34, 0.34 m/s IMPORTANT NOTE: When you report your final result in the lab report, the number of the significant figures on the error should NOT be the same as the number of significant figures...
Table 3.1
Time, t (s)
Position, x (m)
tn/t1
Time Squared, t^2 (s^2)
(tn)^2/(t1)^2
xn/x1
t1, 0.40
x1, 0.25
1.0
.16
1
1
t2, 0.80
x2, 0.36
2.0
.64
4
1.4
t3, 1.2
x3, 0.52
3.0
1.4
9
2.1
t4, 1.6
x4, 0.71
4.0
2.6
16
2.8
t5, 2.0
x5, 0.95
5.0
4.0
25
3.8
t6, 2.4
x6, 1.2
6.0
5.8
36
4.8
Linear fit equation for Position Vs. Time: 0.545x - 0.0530
Quadratic fit equation for Position Vs. Time:...
Constant Positive Accederation Recall that acceleration is the slope of the v-t graph Position vs. Time Time (s1 Position ml Velocity bos) 0 0.2 2.5 0.4 1.5 0.5 0.6 Velocity vs. Time 0.8 1.2 2.5 1.4 0.5 Timet s 1 1.6 Acceleration vs. Time 1.8 0.5 1.5 s utat V ut at Timet S i 5 15
3. Find the Best-Fit Line of Tx
vs. l. Calculate the slope’s value, with its units. (5 points)
Exercise 3. The period of a pendulum T is given by the following equation Where is the length of the pendulum, and g is the gravitational acceleration 9.81 m/s2. Table 3 shows the data of the period of a pendulum as a function of length Table 3 T(s) 0.200 0.400 0.600 0.800 1.00 1.20 0.910 1.26 1.58 1.80 2.08 2.22 1. Plot...
PHY 201 Lab Mansal (Spring For this page: The person's velocity vs. time graph is given to be PHY 201 Lab Manaal (Spring 2019 version) For this page: The person moves forward slowly with a back to the initial position quickly, with a speed of 2.0 m/s speed of 1.0 m/s for 2.0s then comes 18. Sketch the position va. time graph. Include units,Ilabels, and numerical values on the graph BSketch the velocity vs. time graph. Include units, labels, and...