How Do You Convert Different Units of Measurement in Physics?

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To convert units in physics, understanding the relationships between different measurements is essential. For example, converting megajoules (MJ) to joules (J) involves recognizing that 1 MJ equals 1,000,000 J. Speed conversions, such as kilometers per hour (km/h) to meters per second (m/s), require multiplying by the appropriate factors: 1 km equals 1,000 m and 1 hour equals 3,600 seconds. The discussion highlights the importance of using fractions creatively to maintain unit consistency during conversions. Familiarity with metric prefixes and their definitions is crucial for accurate calculations.
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how do u convert the following
MJ to J
km/h to m/s
25 kN to ? (i don't know what)
 
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I usually use fractions. If I wanted to convert 10 ft/s to inches/min, for example, I would do:

10 ft/s * 12 inches/1 ft * 1 min/60 s = 2 inches/s

Since there are 12 inches in a foot, and 60 seconds in a minute, this is just multiplying by 1, in a creative way.

Just use this idea, and you will be converting units in no time at all.

Dorothy
 
Surely you have some idea as to how to do this.

Am I correct in reading the first to be converting MegaJoules to Joules.
You should be able to figure that out with a bit of thought.

Lets go through the conversion of \frac {km} h to \frac m s

There are 1000 m per km and 3600 s per h so

\frac {km} h \times \frac {1000m} {1km} \times \frac {1h} {3600s}

examine the units in this expression, note that km appears in both the numerator and denominator, so can be canceled, leaving only m. The same is true for h. Do the arithmetic.
 
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lost

i ve tried all i know is a MJ a is a like 1000J a second but it doesn't work out for my answers
 
1000 J/s is a Kilo Watt. Mega is not 1000, and there is no second in kilo or in your problem.

Look in your physics book for the definitions of metric prefixes.

Dorothy
 

Thread 'Magnitude of buoyant force in fluids of different densities'

The book claims the answer is that all the magnitudes are the same because "the gravitational force on the penguin is the same". I'm having trouble understanding this. I thought the buoyant force was equal to the weight of the fluid displaced. Weight depends on mass which depends on density. Therefore, due to the differing densities the buoyant force will be different in each case? Is this incorrect?
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