Is a brass trumpet a solution
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Drag each statement to the correct location on the chart. Classify the events as being a cause or an effect of pollution. urbanization oil spill smog desertification deforestation leaky landfill contaminated water
What feature will form as a result of the movement displayed in this illustration?A. transform boundary B. convergent boundary C. mid-ocean ridge D. deep-sea trench
energy in the form of electromagnetic radiation. Most often associated with a wavelength that is visible to the eye
In the light wave above, the property labeled A determines which characteristic of visible light?brightness speedreflectioncolor
volume of the unknown liquid is 125mL. Is the liquid pure water? Explain your answer.
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So in order calculate the density of the unknown liquid, we need to know
its mass and its volume.
If the mass of the beaker is 165 grams empty and 309 grams with
something in it, then the mass of the stuff in it must be
(309 - 165) = 144 grams.
The question tells us that its volume is 125 mL (same as 125 cm³),
so we have everything we need.
Density = mass/volume = 144/125 = 1.152 grams per cm³ .
The density of pure water is 1.000 gram per cm³ , so the unknown liquid
is definitely not pure water.
The density of this unknown liquid is 15.2% more than that of pure water.
Even if water had a huge amount of pollution and junk in it, its density
would probably not be that much greater than 1.000 . So the unknown
liquid is probably not polluted water either.
Mass of the liquid = total mass of beaker and liquid inside the beaker -
mass of empty beaker
= 309 grams - 165 grams
= 144 grams
volume of unknown liquid = 125 ml given
Density = mass / volume = 144 / 125 = 1.152 gm / ml
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Final answer:
The vacuum cleaner's efficiency is calculated as 37.5%. This is determined by the ratio of useful energy output (45J) to total energy input (120J). Real-world devices typically have efficiencies less than 100% due to energy losses.
Explanation:
The vacuum cleaner's efficiency can be calculated using the formula: Efficiency = (Useful energy output / Total energy input) x 100%. In this scenario, the vacuum cleaner used a total of 120 joules of electrical energy, but only 45 joules of that energy were used for the useful task of pulling in air. Therefore, the vacuum cleaner's efficiency would be calculated as: Efficiency = (45 J / 120 J) x 100% = 37.5%.
It's important to understand that real machines do not achieve 100% efficiency because some energy is always lost as heat due to friction and air resistance. As such, the vacuum cleaner's efficiency of 37.5% fits within expected bounds for real-world devices.
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Answer: Tom drove 60 km/hr fast
Speed = Distance traveled / time taken
Explanation:
Given that:
Distance traveled by Tom = 60 km
Time taken by Tom = 1 hour
Speed = ?
Since speed is obtained by dividing distance traveled by the time taken, hence the formula to use is as follows:
speed = distance / time
Speed = 60 km / 1 hour
Speed = 60 km/hr
Thus, Tom had been driving 60 km/hr fast, using the formula "speed = distance / time"
magnetic attraction
B.
covalent bonding
C.
electrical force
D.
adhesion
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Answer:
c
Explanation:
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Answer:
The final velocity is -49.05 meters per second.
Explanation:
Let's use an equation of constant acceleration:
Where a is the acceleration and g is the acceleration caused by gravity.
Since the object is being dropped from rest, .
We're looking for the speed after 5 seconds, so .
So the final velocity is -49.05 meters per second.
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Final answer:
In Chemistry, pH levels can be determined using acid-base indicators or pH paper which change color to reflect the acidity or alkalinity of a solution. Substances with pH less than 7 are acidic, while those with pH over 7 are basic. The concentration of hydrogen ions can also be used to determine pH.
Explanation:
The pH level of a substance can be determined using acid-base indicators or pH paper which change color in relation to the acidity or alkalinity of the solution. The pH scale measures from 0 to 14, with 7 being neutral. Anything below 7 is considered acidic, and anything above 7 is basic or alkaline. For example, if using pH paper or an indicator, a solution that colors the paper or indicator red or orange is likely to be acidic, whereas a green or blue color suggests a basic solution. The specific color can provide a rough estimate of the pH value, with some indicators or pH papers providing more precise value ranges.
Another method to measure pH is by examining the concentration of hydrogen ions in the solution. A lower pH value indicates a higher concentration of hydrogen ions, making the solution more acidic. Conversely, a higher pH value indicates a lower concentration of hydrogen ions, making the solution more basic or alkaline.
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lemon juice, gastric juice and tomato juice are acidic, bleach and baking soda are alkaline and salt solution is neutral