024 • Name:

  1. The graph shows soap density data. Use the graphed data to answer the following questions. Soap density Soap density Dial Basic Neutrana Ivory volume (cm³) mass (g) y-axis labels 0 10 20 30 40 50 60 70 80 90 100 x-axis labels 0 10 20 30 40 50 60 70 80 90 100
    1. __________ _____ Calculate the density ρ of Dial Basic soap.
    2. ______________ Based on the density, will Dial Basic soap float or sink?
    3. __________ _____ Using the density above, calculate the mass of a bar of Dial Basic soap that has a volume of 100 cm³.
    4. __________ _____ Using the density above, calculate the volume of a bar of Dial Basic soap that has a mass of 250 grams.
    5. __________ _____ Calculate the density ρ of Ivory soap.
    6. ______________ Based on the density, will Ivory soap float or sink?
    7. __________ _____ Calculate the density ρ of Neutrana soap.
    8. ______________ Based on the density, will Neutrana soap float or sink?
  2. For the following RipStik velocity chart:
    RipStik velocity, time versus distance
    1. __________ _____ Determine the velocity ѵ of the RipStik.
    2. __________ _____ If the RipStik continued at that velocity for 30 seconds, how many centimeters would the RipStik travel?
    3. __________ _____ If the RipStik continued at that velocity for 7790 centimeters, how many seconds would the RipStik travel?
  3. The time versus distance for three pitches (A, B, C) of a kick ball were recorded in the table below.
    Graphical analysis background rectangle major grid lines D text layers Ball Velocity Time (seconds) Distance (centimeters) x-axis labels 0 1 2 3 4 5 y-axis labels 0 80 160 240 320 400 480 560 640 720 800
    Time
    (s)    		○ A
    (cm)    		□ B
    (cm)    		◊ C
    (cm)
    0560
    1560
    5560
    B
    00
    1400
    2800
    C
    00
    2.580
    5160
    1. Plot the data using circles, squares, and diamonds for A, B, and C respectively.
    2. __________ __________ Calculate the velocity of ball A.
    3. __________ __________ Calculate the velocity of ball B.
    4. __________ __________ Calculate the velocity of ball C.
    5. __________ Which ball is the fastest (A, B, or C)?
    6. __________ Which ball is the slowest (A, B, or C)?
    7. __________ __________ Based on the velocity, how far will ball A travel in 8 seconds?
    8. __________ __________ Based on the velocity, how long in seconds for ball A to travel 2800 centimeters?
    9. __________ __________ The curve on the graph is the acceleration of RipStik. Using the point D (5 seconds, 800 cm) and the equation d = ½at², calculate the acceleration of the RipStik.
  4. A superball is released from a hand and falls for three seconds.
    1. __________ _____ Using the equation d = ½gt² and an acceleration of gravity g = 979 cm/s², how far does the superball fall in centimeters?
    2. __________ _____ At the end of the three seconds, what is the speed of the superball?
  5. A superball falls for 700 centimeters from the height of the new windows in the gym.
    1. __________ _____ How long does the superball fall in seconds if the acceleration of gravity g is 979 cm/s²?
    2. __________ _____ After falling for 700 cm, what is the speed of the superball?

slope= ( y2 y1 ) ( x2 x1 )
ѵ= Δd Δt
distance d = velocity ѵ × time t
ѵ = at
ѵ = gt
d = ½at²
d = ½gt²
where g is the acceleration of gravity
g = 979 cm/s²