Which image represents the force on a positively charged particle caused by an approaching magnet?A) Image A
B) Image B
C) Image C
D) Image D
Answers
Answer:
Image B represents the force on a positively charged particle caused by an approaching magnet.
Explanation:
The most fundamental law of magnetism is that like shafts repulse each other and dissimilar to posts pull in one another; this can without much of a stretch be seen by endeavoring to put like posts of two magnets together. Further attractive impacts additionally exist. On the off chance that a bar magnet is cut into two pieces, the pieces become singular magnets with inverse shafts. Also, pounding, warming or winding of the magnets can demagnetize them, on the grounds that such dealing with separates the direct game plan of the particles. A last law of magnetism alludes to maintenance; a long bar magnet will hold its magnetism longer than a short bar magnet. The domain theory of magnetism expresses that every single enormous magnet involve littler attractive districts, or domains. The attractive character of domains originates from the nearness of significantly littler units, called dipoles. Iotas are masterminded in such a manner in many materials that the attractive direction of one electron counteracts the direction of another; in any case, ferromagnetic substances, for example, iron are unique. The nuclear cosmetics of these substances is with the end goal that littler gatherings of particles unite as one into zones called domains; in these, all the electrons have the equivalent attractive direction.
Final answer:
A positively charged particle will be deflected by the magnetic force when it approaches a magnet. Look for an image in which the particle's path deviates away from the magnet. Without the images, a specific selection cannot be made.
Explanation:
The question relates to the force exerted by a magnet on a positively charged particle. A magnet has two poles, North and South. A positively charged particle moving towards a magnet will be deflected by the field, with the direction of deflection dependent on the specific pole it is approaching. Without the images being provided, it's hard to give a definite answer. However, you should look for an image where the particle's path deviates away from the magnet, as this represents the magnetic force applied to it.
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What three types of organisms make up a food chain?
Answers
Answer:
2
Explanation:
Final answer:
The object's density is calculated by dividing its mass (10 grams) by its volume (5 cubic centimeters), yielding a density of 2 g/cm³.
Explanation:
The density of an object is calculated by dividing its mass by its volume. For the object in question, its mass is 10 grams and its volume is 5 cubic centimeters. Therefore, you would calculate density as follows: Density = Mass / Volume. Plug in the values and you get: Density = 10 grams / 5 cubic centimeters. This equals 2 g/cm³. Hence, the density of the object is 2 grams per cubic centimeter.
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b.inertia
c.apull
d.all of these
Answers
Which is likely to occur in these areas?
A.
clear skies
B.
precipitation
C.
heat and humidity
D.
high winds
Answers
Is your answer:))))
Answers
Answer:
Both True and False
Explanation:
This is because after she stops she may be able to store more energy than she had before but when she start off she may not. Hope this helps.
Answer: Answer is (false)
Explanation:
bother are correct but you will absolutely be marked as wrong if you put true
Answers
Hope this is what you are looking for!
Answers
When the separation between two masses is doubled, the gravitational force between them decreases by 4.
What is meant by gravitational force ?
Gravitational force is defined as the force of attraction experienced by a body due to the gravity of earth.
Here,
The separation between two masses is doubled.
That means the distance, r₂ = 2r₁
We know that the equation of gravitational force is given by,
F = GMm/r²
where G is the gravitational constant
From the equation, we know that the gravitational force obeys the inverse square law.
That means the gravitational force is inversely proportional to the square of the distance between the masses.
So, F 1/r²
Therefore,
F₂/F₁ = (r₁/r₂)²
F₂ = F₁(1/2)²
F₂ = F₁/4
Hence,
When the separation between two masses is doubled, the gravitational force between them decreases by 4.
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Answer:
increase by a factor of 4.
Explanation:
If the separation distance between two objects is doubled (increased by a factor of 2), then the force of gravitational attraction is decreased by a factor of 4 (2 raised to the second power).