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Chapter 8: Problem 66

(II) How much work can a 3.0 -hp motor do in \(1.0 \mathrm{~h} ?\)

Short Answer

Expert verified
The 3.0-hp motor can do 8,056,800 joules of work in 1 hour.

Step by step solution

01

Understanding Horsepower

The term "horsepower," abbreviated as 'hp,' is a unit of power that is equal to 746 watts. Therefore, a 3.0-hp motor can perform work at a rate of \(3.0 \times 746\) watts.
02

Converting Power to Work

To find out how much work the motor can do, we need to multiply the power (in watts) by the time (in seconds). The power is 2238 watts (from \(3.0 \times 746\)), and the time is 1 hour, which equals \(3600\) seconds.
03

Calculating the Work Done

Calculate the work done by multiplying the power in watts with the time in seconds. \[\text{Work} = 2238 \text{ watts} \times 3600 \text{ seconds}\]
04

Evaluating the Expression

Now, calculate the expression to find the total work done:\[\text{Work} = 2238 \times 3600 = 8,056,800 \text{ joules}\]

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Horsepower
Horsepower is a measurement of power, which is the rate at which work is done. Originally, it was created to quantify how much work a horse could do. Though horses don't have the main role in today's industries, this unit is still widely used.
  • 1 horsepower (hp) equals 746 watts.
  • It is commonly used for measuring the power output of engines and motors.
When you have a motor rated at 3.0 horsepower, this means the motor can output power at a rate of 3.0 times 746 watts. For the example given, that totals to 2238 watts. This power measurement is essential in determining how much work the motor can do over a certain period of time.
Power Conversion
To understand how much work a motor can perform, we must convert power into work. Power is the rate of doing work, while work refers to the total effort exerted.
  • Power (measured in watts) describes how quickly work is being done.
  • Work (measured in joules) indicates the overall effect accomplished by the power over time.
This conversion is straightforward through the formula:\[\text{Work (in joules)} = \text{Power (in watts)} \times \text{Time (in seconds)}\]Using the given example, the motor runs at 2238 watts for an entire hour. We need to convert the hour into seconds because watts are power per second. Hence, 1 hour equals 3600 seconds. Multiplying power (2238 watts) by time (3600 seconds) gives us the total work.
Joules
Joules are a fundamental unit of work in the International System of Units (SI). It tells us how much energy is expended when a force acts over a distance.
  • 1 joule equals the energy transferred when 1 watt of power works for 1 second.
  • Joules are used broadly in science to quantify energy, work, and heat.
In the context of our problem, once we perform the calculation \[\text{Work} = 2238 \text{ watts} \times 3600 \text{ seconds}\]the result is 8,056,800 joules. This number represents the total amount of work a 3.0-horsepower motor can do in one hour. Understanding joules is crucial for grasping how various forms of energy are interrelated and interchangeable.

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Most popular questions from this chapter

(II) A \(0.40-\mathrm{kg}\) ball is thrown with a speed of \(8.5 \mathrm{~m} / \mathrm{s}\) at an upward angle of \(36^{\circ} .(a)\) What is its speed at its highest point, and \((b)\) how high does it go? (Use conservation of energy.)

(II) Take into account the Earth's rotational speed (1 rev/day) and determine the necessary speed, with respect to Earth, for a rocket to escape if fired from the Earth at the equator in a direction \((a)\) eastward; \((b)\) westward; \((c)\) vertically upward.

A \(65-\mathrm{kg}\) hiker climbs to the top of a 4200 -m-high mountain. The climb is made in \(5.0 \mathrm{~h}\) starting at an elevation of \(2800 \mathrm{~m} .\) Calculate \((a)\) the work done by the hiker against gravity, (b) the average power output in watts and in horsepower, and (c) assuming the body is \(15 \%\) efficient, what rate of energy input was required.

(I) Jane, looking for Tarzan, is running at top speed \((5.0 \mathrm{~m} / \mathrm{s})\) and grabs a vine hanging vertically from a tall tree in the jungle. How high can she swing upward? Does the length of the vine affect your answer?

(II) What should be the spring constant \(k\) of a spring designed to bring a \(1200-\mathrm{kg}\) car to rest from a speed of \(95 \mathrm{~km} / \mathrm{h}\) so that the occupants undergo a maximum acceleration of \(5.0 g ?\)
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