![Physies 195 - Straight-line kinematics Data: Dot period=1/10s: the time interval between dots is 0.100 corrected values] 15 1](http://img.homeworklib.com/questions/d72c9ba0-9b6f-11eb-8eaf-89d5cb5240d5.png?x-oss-process=image/resize,w_560)
Homework Answers
Graph from above data points is as follows
V5 = slope at
t5 = 
X1 /
t1
Similarly
Now , acceleration a = V/t
Add Answer to:
need help on this graph
Physies 195 - Straight-line kinematics Data: Dot period=1/10s: the time interval...
Physics 195 - Straight-line kinematics E. Graph 2: Plot instantaneous velocity as a function of time....
Physics 195 - Straight-line kinematics E. Graph 2: Plot instantaneous velocity as a function of time. NOTE: LEAVE W OF THE LEFT SIDE OF THE GRAPH PAPER FREE IN ORDER TO FIND THE INTERCEPT ON THE TIME AXIS (see diagram below). Rewrite your instantaneous velocity values from column (4) in the table below next to their corresponding time values. Remember that you can treat your average velocity data in column (4) as an instantaneous velocity if you remember that the...
A position-time graph for a particle moving along the x axis is shown in the figure below.
A position-time graph for a particle moving along the x axis is shown in the figure below.(a) Find the average velocity in the time interval t = 1.00 s to t = 4.00 s. (Indicate the direction with the sign of your answer.) (b) Determine the instantaneous velocity at t = 2.00 s by measuring the slope of the tangent line shown in the graph touches the curve. Indicate the direction with the sign of your answer.)(c) At what value of...
A position-time graph for a particle moving along the x axis is shown in the figure...
A position-time graph for a particle moving along the x axis is shown in the figure below x (m) 12 10 8 6 t (s) 02 3 4 5 6 (a) Find the average velocity in the time intervalt2.00s tot-4.00s. (Indicate the direction with the sign of your answer) m/s (b) Determine the instantaneous velocity at t = 2.00 s by measuring the slope of the tangent line shown in the graph. (Note that t Indicate the direction with the...
Please explain all the steps needed to complete this problem. Thank you for your time. A...
Please explain all the steps
needed to complete this problem.
Thank you for your time.
A position-time graph for a particle moving along the x axis is shown in the figure. The divisions along the horizontal axis represent 1.75 s and the divisions along the vertical axis represent 3.0 m (a) Find the average velocity in the time interval t = 5.25 s to t = 14.00 s m/s (b) Determine the instantaneous velocity at t = 7.00 s (where...
i need question 7 and 9 done immediately Thank you very much 2.50 2.00 1.50 Distance...
i need question 7 and 9 done immediately
Thank you very much
2.50 2.00 1.50 Distance (meters) 1.00 0.50 0.00 0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 Time (sec) A continuous stream of data for this experiment would look like the graph above. Using a ruler, draw a chord from the origin to the point (0.60, 1.80). Then, draw another line that is tangent to the curve and parallel to the chord you just drew 5) 6) What...
My Notes O Ask Your A position-time graph for a particle moving along the x axis...
My Notes O Ask Your A position-time graph for a particle moving along the x axis is shown in the figure below. x (m) 12 10F レ (a) Find the average velocity in the time interval t 2.00 s tof 3.50 s. (Indicate the direction with the sign of your answer.) Your response differs from the correct answer by more than 10%. Double check your calculations. m/s (b) Determine the instantaneous velocity at t-2.00 s by measuring the slope of...
a) Find the average velocity in the time interval t = 1.00 s to t =...
a) Find the average velocity in the time interval
t = 1.00 s to t = 3.00
s.(Indicate the direction with the sign of your answer.)
b) Determine the instantaneous velocity at t = 2.00 s by
measuring the slope of the tangent line shown in the graph. (Note
that t = 2.00 s is where the tangent line touches the curve.
Indicate the direction with the sign of your answer.)
c) I have answered.
With question number 2, my...
1_ in part 2 is your graph of s vs t a straight line? if not how would you describe the curve (what does...
1_ in part 2 is your graph of s vs t a straight line?
if not how would you describe the curve (what does the slope tell
about the velocity )
2_ in part 3 what does your graph of v vs the tell you about the
acceleration
70 60 50 40 30 DISTANCE (cm) 20 Time (sec) Average Time sec CONSTANT ACCELERATION TABLE 2-2 60 70 50 1. DISTANCE (crm). 40 20 30 459226226L-112 1.236 13512 26 1.235 95z...
Please show all your work. 5) Acceleration is to velocity as velocity is to position . aaux"# r where vr įs th...
Please show all your work.
5) Acceleration is to velocity as velocity is to position . aaux"# r where vr įs the instantaneous velocity. So the average acceleration is about how rapidly the instantaneous velocity is changing, and the sign tells about the direction of the change. At For the pendulum, you made estimates of the instantaneous velocity for ←2.05[s] and t= 2.5%]. Also, the average speed and average velocity estimates that you made at other times may be reasonable...
What is the total distance traveled by the particle in meters? Thank you for your time....
What is the total distance traveled by the particle in meters?
Thank you for your time.
What Velocity vs. Time Graphs Can Tell You A common graphical representation of motion along a straight line is the v vs. t graph, that is, the graph of (instantaneous) velocity as a function of time. In this graph, time t is plotted on the horizontal axis and velocity v on the vertical axis. Note that by definition, velocity and acceleration are vector quantities....
Physics 195 - Straight-line kinematics E. Graph 2: Plot instantaneous velocity as a function of time. NOTE: LEAVE W OF THE LEFT SIDE OF THE GRAPH PAPER FREE IN ORDER TO FIND THE INTERCEPT ON THE TIME AXIS (see diagram below). Rewrite your instantaneous velocity values from column (4) in the table below next to their corresponding time values. Remember that you can treat your average velocity data in column (4) as an instantaneous velocity if you remember that the...
A position-time graph for a particle moving along the x axis is shown in the figure below x (m) 12 10 8 6 t (s) 02 3 4 5 6 (a) Find the average velocity in the time intervalt2.00s tot-4.00s. (Indicate the direction with the sign of your answer) m/s (b) Determine the instantaneous velocity at t = 2.00 s by measuring the slope of the tangent line shown in the graph. (Note that t Indicate the direction with the...
Please explain all the steps
needed to complete this problem.
Thank you for your time.
A position-time graph for a particle moving along the x axis is shown in the figure. The divisions along the horizontal axis represent 1.75 s and the divisions along the vertical axis represent 3.0 m (a) Find the average velocity in the time interval t = 5.25 s to t = 14.00 s m/s (b) Determine the instantaneous velocity at t = 7.00 s (where...
i need question 7 and 9 done immediately
Thank you very much
2.50 2.00 1.50 Distance (meters) 1.00 0.50 0.00 0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 Time (sec) A continuous stream of data for this experiment would look like the graph above. Using a ruler, draw a chord from the origin to the point (0.60, 1.80). Then, draw another line that is tangent to the curve and parallel to the chord you just drew 5) 6) What...
My Notes O Ask Your A position-time graph for a particle moving along the x axis is shown in the figure below. x (m) 12 10F レ (a) Find the average velocity in the time interval t 2.00 s tof 3.50 s. (Indicate the direction with the sign of your answer.) Your response differs from the correct answer by more than 10%. Double check your calculations. m/s (b) Determine the instantaneous velocity at t-2.00 s by measuring the slope of...
a) Find the average velocity in the time interval
t = 1.00 s to t = 3.00
s.(Indicate the direction with the sign of your answer.)
b) Determine the instantaneous velocity at t = 2.00 s by
measuring the slope of the tangent line shown in the graph. (Note
that t = 2.00 s is where the tangent line touches the curve.
Indicate the direction with the sign of your answer.)
c) I have answered.
With question number 2, my...
1_ in part 2 is your graph of s vs t a straight line?
if not how would you describe the curve (what does the slope tell
about the velocity )
2_ in part 3 what does your graph of v vs the tell you about the
acceleration
70 60 50 40 30 DISTANCE (cm) 20 Time (sec) Average Time sec CONSTANT ACCELERATION TABLE 2-2 60 70 50 1. DISTANCE (crm). 40 20 30 459226226L-112 1.236 13512 26 1.235 95z...
Please show all your work.
5) Acceleration is to velocity as velocity is to position . aaux"# r where vr įs the instantaneous velocity. So the average acceleration is about how rapidly the instantaneous velocity is changing, and the sign tells about the direction of the change. At For the pendulum, you made estimates of the instantaneous velocity for ←2.05[s] and t= 2.5%]. Also, the average speed and average velocity estimates that you made at other times may be reasonable...
What is the total distance traveled by the particle in meters?
Thank you for your time.
What Velocity vs. Time Graphs Can Tell You A common graphical representation of motion along a straight line is the v vs. t graph, that is, the graph of (instantaneous) velocity as a function of time. In this graph, time t is plotted on the horizontal axis and velocity v on the vertical axis. Note that by definition, velocity and acceleration are vector quantities....
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