Five your answer as a whole or exact number.

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
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### Problem Description:

At a certain moment, an object in linear motion has a velocity of 92 m/s.

### Task:

Estimate the distance traveled over the next 8 seconds.

*(Give your answer as a whole or exact number.)*

### Input Area:

**Distance:** [ Text Box ] **m**

--- 

To solve this problem, you can use the formula for distance traveled under constant velocity, which is:

\[ \text{Distance} = \text{Velocity} \times \text{Time} \]

Given:
- Velocity (\( v \)) = 92 m/s
- Time (\( t \)) = 8 seconds

Thus, the distance (\( d \)) can be calculated as:

\[ d = 92 \, \text{m/s} \times 8 \, \text{s} \]

\[ d = 736 \, \text{m} \]

Enter the calculated distance in the provided text box.
Transcribed Image Text:### Problem Description: At a certain moment, an object in linear motion has a velocity of 92 m/s. ### Task: Estimate the distance traveled over the next 8 seconds. *(Give your answer as a whole or exact number.)* ### Input Area: **Distance:** [ Text Box ] **m** --- To solve this problem, you can use the formula for distance traveled under constant velocity, which is: \[ \text{Distance} = \text{Velocity} \times \text{Time} \] Given: - Velocity (\( v \)) = 92 m/s - Time (\( t \)) = 8 seconds Thus, the distance (\( d \)) can be calculated as: \[ d = 92 \, \text{m/s} \times 8 \, \text{s} \] \[ d = 736 \, \text{m} \] Enter the calculated distance in the provided text box.
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