llowing questions. show your work and include correct units.
table of equations
ity: ( v_f = v_i + (a cdot t) )
time: ( t = d / v )
ity: ( v_f = v_i - (a cdot t) )
centripetal acceleration: ( a = v^2 / r )
( d = v cdot t )
linear acceleration: ( a = (v_f - v_i) / t )
gravity (earth): ( 9.8 , ext{m/s}^2 )

a ball is dropped from the top of a building. after 2 seconds, its velocity is measured to be 19.6 m/s. what is the acceleration of the ball?
what are you solving for? equation:
acceleration ( v = v_0 + (a cdot t) )
show work and answer with the correct units:
( a = 9.8 , ext{m/s}^2 )

12. a runner sprints 400 meters east in 50 seconds, then jogs another 600 meters east in 2 minutes. what is their average velocity for the entire run?
what are you solving for? equation:
average velocity ( v = d / t )
show work and answer with the correct units:

13. a plane flies at 500 km/h for 15 minutes. how far does it travel?
what are you solving for? equation:

show work and answer with the correct units:

14. a ball is launched upward and is in the air for a total of 4 seconds before returning to its starting hei what was the initial velocity? (remember gravity is an acceleration value!)
what are you solving for? equation:

show work and answer with the correct units:

Question

llowing questions. show your work and include correct units.
table of equations
ity: ( v_f = v_i + (a cdot t) )
time: ( t = d / v )
ity: ( v_f = v_i - (a cdot t) )
centripetal acceleration: ( a = v^2 / r )
( d = v cdot t )
linear acceleration: ( a = (v_f - v_i) / t )
gravity (earth): ( 9.8 , 	ext{m/s}^2 )

a ball is dropped from the top of a building. after 2 seconds, its velocity is measured to be 19.6 m/s. what is the acceleration of the ball?
what are you solving for? 	 equation:
acceleration 	 ( v = v_0 + (a cdot t) )
show work and answer with the correct units:
( a = 9.8 , 	ext{m/s}^2 )

12. a runner sprints 400 meters east in 50 seconds, then jogs another 600 meters east in 2 minutes. what is their average velocity for the entire run?
what are you solving for? 	 equation:
average velocity 	 ( v = d / t )
show work and answer with the correct units:

13. a plane flies at 500 km/h for 15 minutes. how far does it travel?
what are you solving for? 	 equation:
	
show work and answer with the correct units:

14. a ball is launched upward and is in the air for a total of 4 seconds before returning to its starting hei what was the initial velocity? (remember gravity is an acceleration value!)
what are you solving for? 	 equation:
	
show work and answer with the correct units:

Accepted Answer

### Question 11 (Ball Dropped from Building)
# Explanation:
## Step1: Identify known values
Initial velocity $ v_i = 0 \, \text{m/s} $ (dropped), final velocity $ v_f = 19.6 \, \text{m/s} $, time $ t = 2 \, \text{s} $. We use the linear acceleration formula $ a=\frac{v_f - v_i}{t} $.
## Step2: Substitute values into formula
$ a=\frac{19.6 - 0}{2} $
## Step3: Calculate acceleration
$ a = 9.8 \, \text{m/s}^2 $
# Answer:
The acceleration of the ball is $ 9.8 \, \text{m/s}^2 $

### Question 12 (Runner's Average Velocity)
# Explanation:
## Step1: Find total distance and total time
Total distance $ d = 400 + 600 = 1000 \, \text{m} $. Total time $ t = 50 \, \text{s}+2\times60 = 170 \, \text{s} $. Use $ v=\frac{d}{t} $.
## Step2: Substitute values
$ v=\frac{1000}{170}\approx5.88 \, \text{m/s} $ (east direction, but magnitude is $ \approx5.88 \, \text{m/s} $)
# Answer:
The average velocity is approximately $ 5.88 \, \text{m/s} $ east (or $ \approx5.88 \, \text{m/s} $)

### Question 13 (Plane's Distance Traveled)
# Explanation:
## Step1: Convert time to hours
$ 15 \, \text{minutes}=\frac{15}{60}=0.25 \, \text{h} $. Use $ d = v\times t $, where $ v = 500 \, \text{km/h} $, $ t = 0.25 \, \text{h} $.
## Step2: Calculate distance
$ d = 500\times0.25 = 125 \, \text{km} $
# Answer:
The plane travels $ 125 \, \text{km} $

### Question 14 (Ball's Initial Velocity)
# Explanation:
## Step1: Identify motion and formula
At maximum height, $ v_f = 0 $, total time $ T = 4 \, \text{s} $, so time to reach max height $ t = 2 \, \text{s} $. Use $ v_f = v_i - gt $ (upward motion, gravity $ g = 9.8 \, \text{m/s}^2 $).
## Step2: Solve for $ v_i $
$ 0 = v_i - 9.8\times2 \Rightarrow v_i = 19.6 \, \text{m/s} $
# Answer:
The initial velocity is $ 19.6 \, \text{m/s} $ upward

Sovi.AI - AI Math Tutor

QUESTION IMAGE

Question

Explanation:

Question 11 (Ball Dropped from Building)

Step1: Identify known values

Step2: Substitute values into formula

Step3: Calculate acceleration

Step1: Find total distance and total time

Step2: Substitute values

Step1: Convert time to hours

Step2: Calculate distance

Answer:

Question 12 (Runner's Average Velocity)