HomeworkLib
Question

Motion with Constant Velocity Name: Partners: Tape TimerThis means that the timer will make (io) dots on the tape every rate second Time between dots Show your work )s Toy CarTime tPosition x Position Displacement Avg.Velocity Motion Show one 0.0 example which can explain how .O you cm 0.0 x(m d(m) V(m/s) calculate the826 082 velocity of this motion: 0395 3as 0 2 IS A. is o.Y 1a3 13 ,d 24. diselcma Constont from cr 1. Attach Position Vs time graph and Velocity vs time graph of this car. 2. What do you think would happen to the spacing between the dots if you used a toy car moving at a much faster rate? 3. What do you think would happen to the calculated velocity of a car if you used 40HZ instead of 10HZ? Why? 4. Summarize what you found about the motion of a toy car.

science   physics   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

time between dots

in every 1 sec = 10 dots

1 dots=1/10 sec=0.1 sec

1)

position vs time 0.45 0.4 0.35 0.3 0.25 0.2 0.15 0.1 0.05 pxx.ition (mi) * 0.1 0.2 0.3 0.4 0.5 0.6 0.7 time(s)

velocity vs time 0.435 0.43 0.425 0.42 E 0.415 0.41 S0.405 0.395 0.39 0.1 0.2 0.3 0.5 0.6 0.7 time(s)

2)

if speed increases keeping time constant then the spacing between the dots decreases.

3)

d- distance f- frequency

if frequency increases velocity increases.

4)

since the position vs time graph is linear then velocity is uniform

0 0
Add a comment
Know the answer?
Add Answer to:
Motion with Constant Velocity Name: Partners: Tape TimerThis means that the timer will make (io) dots...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • 1. Define constant velocity. 2. Collect and organize data of the car’s motion. 3. Create a...

    1. Define constant velocity. 2. Collect and organize data of the car’s motion. 3. Create a position vs. time graph using data collected. 4. Define the meaning of the slope (i.e. what does it tell you about the car’s motion?) 1. Mark the starting point on the floor using a piece of masking tape. (This is the 0 cm point.) When you begin, the front of the car should be at the starting point. 2. Start the car moving. 3....

  • 4. 5. Moving with Constant Acceleration, PHYS 151 1. Take several objects of different masses, but...

    4. 5. Moving with Constant Acceleration, PHYS 151 1. Take several objects of different masses, but all relatively heavy, and drop them together. Do they all fall together, or do some objects fall significantly faster than others? 2. Drop a piece of paper. How is its behavior different from the others? 3 Why does the paper behave differently from the other objects? Get the timer tape (a long, skinny piece of paper with little dots on it). This was attached...

  • 2. For each of the following motions draw a motion diagram, a position-vs-time graph, and a...

    2. For each of the following motions draw a motion diagram, a position-vs-time graph, and a velocity-vs-time graph. a. A car starts from rest, steadily speeds up to 40 mph in 15s, moves at a constant speed for 30s, b. then comes to a halt in 5s A rock is dropped from a bridge and steadily speeds up as it falls. It is moving at 30 m/s when it hits the ground 3s later. Think carefully about the signs.

  • constant velocity and constant acceleration experiment pls only correct answers and clear handwriting thanks General Form...

    constant velocity and constant acceleration experiment pls only correct answers and clear handwriting thanks General Form of Linear equation Y=mx+b m is the slope b is the y-intercept General Form of Quadratic equation y=A+BX+C A is the quadratic coefficient B is the linear coefficient C is the Constant Constant Velocity (Motorized Cart) 10 Pistol 05 Times Y=mx+b X=Vt+Xo m is the slope: m is the Velocity = 0.210 m/s (21 cm/s) b is the y-intercept: b is the initial Position...

  • need help with ANALYZE PART A AND B and FINALIZE EXPLORE A car is moving with constant acceleration along a straight road (A) Determine how the velocity and the displacement of the car vary with t...

    need help with ANALYZE PART A AND B and FINALIZE EXPLORE A car is moving with constant acceleration along a straight road (A) Determine how the velocity and the displacement of the car vary with time if the car is initialy moving to the right with a speed of 9.0 m/s and has an acceleration to the right of 1.7 m/s (B) Determine the velocity as a function of time when the velocity is instead initially to the right and...

  • 2. The following velocity-vs-time graph represents the motion of a race car during the first few...

    2. The following velocity-vs-time graph represents the motion of a race car during the first few sec- onds of a race. The track may be assumed to be straight during this period. Afterwards the car continues to travel at a constant speed around the rest of the track, ending its lap back on the start/finish line. [16 points] velocity (m/s) 45 25 -time (S) 6 (a) What is the car's velocity after one second? [3] (b) How far has it...

  • .uc. edu/bbcswebdav/pid-32484691-dt-content-rid-132834372 1/courSearch +70% IL. One dimessional motion with constant acceleration A. A small cart is...

    .uc. edu/bbcswebdav/pid-32484691-dt-content-rid-132834372 1/courSearch +70% IL. One dimessional motion with constant acceleration A. A small cart is given a srong push up oe an incline plane. We are concerned only with its motion sp the plane draw a motion map for the motion of the cart frem immediately after etting pushed should represent anodher second of motion. Assume that the On the figure below, until reaching its turmaround point. Each dot location of the curt shown below is where it is...

  • 20125982 ANALYZE (A) Determine how the velocity varles for positive acceleration and initial velocity to the...

    20125982 ANALYZE (A) Determine how the velocity varles for positive acceleration and initial velocity to the right. The acceleration vs. time plot for constant acceleration is a straight line parallel to the time axls. It lles above the origin for acceleratlon to the right. During the acceleration, the velocity Increases by 1.6 m/s each second, so the velocity vs. time graph is a line with a slope of 1.6 m/s per second, and X m/s )+1.6 m/s2)t. The car starts...

  • Energy of a Tossed Ball In this experiment, we will study energy changes using a Motion...

    Energy of a Tossed Ball In this experiment, we will study energy changes using a Motion Detector. OBJECTIVES: • Measure the change in the kinetic and potential energies as a ball moves in free fall. • See how the total energy of the ball changes during free fall. MATERIALS: Computer Lab Pro Logger Pro Vernier Motion Detector Basketball PRELIMINARY QUESTIONS (PHY2048): For each question, consider the free-fall portion of the motion of a ball tossed straight upward, starting just as...

  • 1. What happens to the motion of an object if it has a constant mass but...

    1. What happens to the motion of an object if it has a constant mass but you change the Magnitude of the net force on it? Explain 2. Why did the slope change for each of the three runs? For runs #1, #2and #3, what did you observe about the slope of the Linear Fit as the net force increased but the total mass was kept constant? What are the units for the slope for each graph? Explain. 3. What...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT