What Is Power? | Physics in Motion

GPB Education

6 Feb 201905:34

Summary

TLDRThis video explains the concepts of work and power in physics, focusing on how power is the rate at which work is done. Viewers learn that power is measured in Watts, where 1 Watt equals 1 Joule per second, and are introduced to the practical application of these concepts through examples like light bulbs, hand cranks, and car engines. The video also provides a step-by-step example of calculating power in a car accelerating from 0 to 27 m/s, ultimately highlighting the relationship between force, velocity, and power, and explaining how energy is used and transferred in real-world scenarios.

Takeaways

😀 Work in physics is defined as a change in energy, and it occurs when a force displaces an object.
😀 The amount of time it takes to do work is just as important as how much work is done.
😀 Power is the rate at which work is done, or how much work is done in a given amount of time.
😀 Power is measured in Watts (W), which equals Joules per second (J/s).
😀 An incandescent light bulb uses about 60 Watts, while a CFL bulb uses 15 Watts and an LED bulb uses 12 Watts for the same brightness.
😀 Power can be generated by mechanical means, such as using a hand crank to produce between 4 to 8 Watts of electrical power.
😀 The concept of power extends to human activity, where we burn Watts of energy simply by being alive.
😀 In American automotive terminology, power is often expressed in horsepower (hp), where 1 horsepower is equivalent to 745.7 Watts.
😀 Power is related to force and velocity. The formula for power is: Power = Force × Velocity.
😀 To calculate the power used by a car, you need to first determine the force (using mass × acceleration), then apply it to the power formula.
😀 In a sample problem, a 1,000 kg car accelerating to 27 m/s in 5 seconds uses 145,800 Watts (195.5 horsepower).

Q & A

What is the definition of work in physics?
-In physics, work is defined as the change in energy that occurs when a force displaces or moves an object.
Why is time an important factor when discussing work?
-Time is important because it affects the power used to do the work. The faster work is done, the more power is required, even if the amount of work done is the same.
What is the definition of power in physics?
-Power in physics is defined as the amount of work done in a given amount of time. It is measured in Watts, where 1 Watt equals 1 Joule of energy used per second.
How is power measured in different types of light bulbs?
-In light bulbs, power is measured in Watts. For example, an incandescent light bulb uses about 60 Watts of power, while a CFL bulb uses 15 Watts, and an LED bulb uses 12 Watts.
What is the relationship between power and force in the context of moving an object?
-Power is related to force by the equation: Power = Force × Velocity. This means that to increase power, you can either increase the force applied to an object or increase its velocity.
What is the unit for power and how does it relate to Joules?
-The unit for power is the Watt (W), which is equivalent to one Joule of energy used per second.
How does a hand crank generate power?
-A hand crank converts mechanical energy into electrical power. By turning the crank, you can generate between 4 and 8 Watts of power, depending on how fast it's turned.
How does horsepower differ from Watts?
-Horsepower is a unit of power commonly used for motorized engines in the U.S. One horsepower is equal to 745.7 Watts.
What formula can be used to calculate the power of a moving object?
-To calculate the power of a moving object, you can use the formula: Power = Force × Velocity, where force is mass times acceleration and velocity is the speed of the object.
What is the power used by a car with a mass of 1000 kg, accelerating from 0 to 27 m/s in 5 seconds?
-The car uses 145,800 Watts (or 195.5 horsepower) to accelerate from 0 to 27 m/s in 5 seconds. This is calculated using the formula for power and force, where force is found by mass × acceleration and then power is force × velocity.