kinetic energy quiz
directions- answer the following questions using the right energy formula. be sure to show proper units.
1. a man 100 kg is walking down the hallway at a speed of 7 m/s. what is this man’s kinetic energy as he travels?
a. 700 j
b. 93 j
c. 2,129 j
d. 2,450 j
2. a 4 kg rock falls 50 meters through the air at a speed of 5 m/s. what is the kinetic energy of this rock as it falls?
a. 100 j
b. 75 j
c. 50 j
d. 25 j
3. a car moves 50 m down the road in 20 seconds and has 93,750 j of energy. what is the mass of the car?
a. 15,000 kg
b. 30,000 kg
c. 21,530 kg
d. 22,000 kg
4. an object has a kinetic energy of 25 j and a mass of 34 kg, how fast is the object moving?
a. 1.21 m/s
b. 1.53 m/s
c. 5.01 m/s
d. 3.33 m/s
5. an object moving with a speed of 35 m/s and has a kinetic energy of 15,000 j, what is the mass of the object.
a. 24.49 kg
b. 25.00 kg
c. 21.32 kg
d. 20.03 kg
6. an object has a kinetic energy of 14 j and a mass of 17 kg, how fast is the object moving?
a. 2.25 m/s
b. 1.34 m/s
c. 1.01 m/s
d. 1.28 m/s

Question

kinetic energy quiz
directions- answer the following questions using the right energy formula. be sure to show proper units.
1. a man 100 kg is walking down the hallway at a speed of 7 m/s. what is this man’s kinetic energy as he travels?
   a. 700 j
   b. 93 j
   c. 2,129 j
   d. 2,450 j
2. a 4 kg rock falls 50 meters through the air at a speed of 5 m/s. what is the kinetic energy of this rock as it falls?
   a. 100 j
   b. 75 j
   c. 50 j
   d. 25 j
3. a car moves 50 m down the road in 20 seconds and has 93,750 j of energy. what is the mass of the car?
   a. 15,000 kg
   b. 30,000 kg
   c. 21,530 kg
   d. 22,000 kg
4. an object has a kinetic energy of 25 j and a mass of 34 kg, how fast is the object moving?
   a. 1.21 m/s
   b. 1.53 m/s
   c. 5.01 m/s
   d. 3.33 m/s
5. an object moving with a speed of 35 m/s and has a kinetic energy of 15,000 j, what is the mass of the object.
   a. 24.49 kg
   b. 25.00 kg
   c. 21.32 kg
   d. 20.03 kg
6. an object has a kinetic energy of 14 j and a mass of 17 kg, how fast is the object moving?
   a. 2.25 m/s
   b. 1.34 m/s
   c. 1.01 m/s
   d. 1.28 m/s

Accepted Answer

### Question 1
# Explanation:
## Step1: Recall kinetic energy formula
The formula for kinetic energy (KE) is $KE = \frac{1}{2}mv^2$, where $m$ is mass and $v$ is velocity.
## Step2: Substitute values
Given $m = 100\ kg$ and $v = 7\ m/s$. Plug into the formula: $KE=\frac{1}{2}	imes100	imes7^2$.
## Step3: Calculate
First, $7^2 = 49$. Then, $\frac{1}{2}	imes100 = 50$. Then, $50	imes49 = 2450\ J$. Wait, but the options have d. 2,450 J? Wait, wait, 100*49=4900, half of that is 2450. Wait, but the options: a.700, b.93, c.2129, d.2450. So the calculation is correct. Wait, maybe I miscalculated? Wait, 7 squared is 49, times 100 is 4900, divided by 2 is 2450. So the answer is d. 2,450 J. Wait, but let me check again. Wait, the problem says "a man 100 kg is walking down the hallway at a speed of 7 m/s". So KE = 0.5*100*49 = 2450 J. So the answer is d.

Wait, but the options: a.700, b.93, c.2129, d.2450. So yes, d is correct.

# Answer: d. 2,450 J

### Question 2
# Explanation:
## Step1: Use KE formula
$KE=\frac{1}{2}mv^2$, $m = 4\ kg$, $v = 5\ m/s$.
## Step2: Substitute
$KE=\frac{1}{2}	imes4	imes5^2$.
## Step3: Calculate
$5^2 = 25$, $\frac{1}{2}	imes4 = 2$, $2	imes25 = 50\ J$. Wait, but the options: a.100, b.75, c.50, d.25. So c is 50 J. Wait, let's check: 0.5*4*25 = 50. Yes. So answer is c. 50 J.

# Answer: c. 50 J

### Question 3
# Explanation:
## Step1: Recall KE formula and solve for mass
$KE=\frac{1}{2}mv^2$, so $m=\frac{2KE}{v^2}$. First, find velocity. The car moves 50 m in 20 seconds, so $v=\frac{50}{20}=2.5\ m/s$.
## Step2: Substitute values
Given $KE = 93750\ J$ and $v = 2.5\ m/s$. So $m=\frac{2	imes93750}{2.5^2}$.
## Step3: Calculate denominator
$2.5^2 = 6.25$.
## Step4: Calculate numerator
$2	imes93750 = 187500$.
## Step5: Divide
$m=\frac{187500}{6.25}=30000\ kg$. Wait, but the options: a.15,000, b.30,000 Kg, c.21,530, d.22,000. So b is 30,000 Kg. So answer is b.

# Answer: b. 30,000 Kg

### Question 4
# Explanation:
## Step1: Rearrange KE formula for velocity
From $KE=\frac{1}{2}mv^2$, solve for $v$: $v=\sqrt{\frac{2KE}{m}}$.
## Step2: Substitute values
Given $KE = 25\ J$ and $m = 34\ kg$. So $v=\sqrt{\frac{2	imes25}{34}}$.
## Step3: Calculate numerator
$2	imes25 = 50$.
## Step4: Divide
$\frac{50}{34}\approx1.4706$.
## Step5: Take square root
$\sqrt{1.4706}\approx1.21\ m/s$. Which is option a. 1.21 m/s.

# Answer: a. 1.21 m/s

### Question 5
# Explanation:
## Step1: Rearrange KE formula for mass
From $KE=\frac{1}{2}mv^2$, solve for $m$: $m=\frac{2KE}{v^2}$.
## Step2: Substitute values
Given $KE = 15000\ J$ and $v = 35\ m/s$. So $m=\frac{2	imes15000}{35^2}$.
## Step3: Calculate denominator
$35^2 = 1225$.
## Step4: Calculate numerator
$2	imes15000 = 30000$.
## Step5: Divide
$\frac{30000}{1225}\approx24.49\ kg$, which is approximately 24.49 kg, option a. 24.49 kg.

# Answer: a. 24.49 kg

### Question 6
# Explanation:
## Step1: Rearrange KE formula for velocity
$v=\sqrt{\frac{2KE}{m}}$.
## Step2: Substitute values
Given $KE = 14\ J$ and $m = 17\ kg$. So $v=\sqrt{\frac{2	imes14}{17}}$.
## Step3: Calculate numerator
$2	imes14 = 28$.
## Step4: Divide
$\frac{28}{17}\approx1.647$.
## Step5: Take square root
$\sqrt{1.647}\approx1.28\ m/s$? Wait, wait, 1.28 squared is about 1.638, which is close. Wait, let's calculate: 28/17 ≈1.647. Square root of 1.647: 1.28^2 = 1.6384, 1.29^2=1.6641. So it's approximately 1.28 m/s, which is option d. 1.28 m/s. Wait, but let's check again. 2*14=28. 28/17≈1.647. Square root: √1.647≈1.28. So answer is d.

# Answer: d. 1.28 m/s

Sovi.AI - AI Math Tutor

QUESTION IMAGE

Question

Explanation:

Question 1

Step1: Recall kinetic energy formula

Step2: Substitute values

Step3: Calculate

Step1: Use KE formula

Step2: Substitute

Step3: Calculate

Step1: Recall KE formula and solve for mass

Step2: Substitute values

Step3: Calculate denominator

Step4: Calculate numerator

Step5: Divide

Answer:

Question 2