PHYSICS HIGH SCHOOL

Once the magnet moved closest to the loop in the forward direction, under normal magnet polarity, the approximate magnitude of the induced current shown on the galvanometer was mA.Once the magnet moved closest to the loop in the reverse direction, under normal magnet polarity, the approximate magnitude of the induced current shown on the galvanometer was mA.



Once the magnet moved closest to the loop in the forward direction, under reversed magnet polarity, the approximate magnitude of the induced current shown on the galvanometer was mA.

Answers

Answer 1
Answer:

Answer:

2, 2, 2

Explanation:
Answer 2
Answer:

Answer:

2, 2, 2

Explanation:

correct on edge

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Which one of the following types of electromagnetic radiation causes certain substances to fluoresce? A. Ultraviolet rays B. Infrared waves C. X rays D. Cosmic rays

A 5.0 g lead bullet is fired into a fence post. The initial speed of the bullet is 210 m/s, and when it comes to rest, half its kinetic energy goes into heating the bullet. How much does the bullet's temperature increase?

Answers

Given the data from the question, the bullet's temperature increases by 85.5 °C

How to determine the kinetic energy

  • Mass (m) = 5 g = 5 / 1000 = 0.005 g
  • Velocity (v) = 210 m/s
  • Kinetic energy (KE) =?

KE = ½mv²

KE = ½ × 0.005 × 210²

KE = 110.25 J

How to determine the increase in temperature

  • Kinetic energy (KE) = 110.25 J
  • Heat (Q) = ½KE = ½ × 110.25 = 55.125 J
  • Mass (M) = 5 g
  • Specific heat capacity of lead (C) = 0.129 J/gºC
  • Change in temperature (ΔT) =?

Q = MCΔT

Divide both side by MC

ΔT = Q / MC

ΔT = 55.125 / (5 × 0.129)

ΔT = 85.5 °C

Thus, the temperature increase is 85.5 °C

Learn more about heat transfer:

brainly.com/question/6363778
5g = 0.005 kg
So KE=1/2 0.005 kg * 210m/s^2 = 110 J.
Now the specific heat capacity of lead is 126 J/kgK, so the temperature change= 55 J / 0.005 * 126 J/kgK=87.3015873 K. Which, if normal thermal conditions, the bullet would have a temperature of around 360,451587 Kelvin or, simplified, 107.3 degrees celsius.

Which one of the following types of electromagnetic radiation causes certain substances to fluoresce? A. Cosmic rays
B. Ultraviolet rays
(C. X rays)
D. Infrared waves

A virtual image produced by a lens is always

A. located in front of the lens.
(B. located in the back of the lens.)
C. smaller than the object.
D. larger than the object.

Reflecting telescopes are popular because they're

A. more durable than a refracting telescope.
B. more powerful than a refracting telescope.
C. easier to build than a refracting telescope.
(D. smaller than a refracting telescope.)

The unit for measuring the rate at which light energy is radiated from a source is the

A. lux.
B. lumen.
(C. candela.)
D. Angstrom

A magnifying glass is an example of a _______ lens.

A. plano-concave
(B. plano-convex)
C. double-concave
D. converging

my answer is in ( ) and the answers are wrong please tell me the correct answer because i dont have a clue

Answers

1. Answer;

B. ultraviolet rays

Ultraviolet rays are the type of electromagnetic radiation that causes certain substances to fluoresce.

Explanation;

  • UV light is an electromagnetic radiation present in sunlight, that is shorter in wavelength than visible light and longer than X-rays.
  • Ultraviolet radiation is undetectable by the human eye, however, when it falls on certain substances, it may cause them to fluoresce that is emit electromagnetic radiation of lower energy, such as visible light.
  • Fluorescence is a phenomenon that causes a mineral to glow within the visible spectrum when exposed to ultraviolet light.

2. Answer;

B. located in the back of the lens.

Explanation;

  • Virtual images are those images that are locations from where lights appears to have converged. Additionally, virtual images can not be reproduced on a a screen, and occur on the opposite side of the object and are always upright.
  • Virtual images are formed by the diverging or concave lenses or by placing the object inside the focal length of a converging lens. The image is located at the back of the lens.

3. Answer;

C. easier to build than a refracting telescope.

Explanation;

  • Reflecting telescopes are those telescopes that uses mirrors to focus the light while refracting telescopes uses lenses to focus the light.
  • Reflecting telescopes have many advantages over refracting telescopes. These includes, the fact that mirrors don't cause chromatic aberration and they are easier and cheaper to build large.
  • Additionally, they are  easier to mount because the back of the mirror can be used to attach to the mount.

4. Answer

C. Lumen

The unit for measuring the rate at which light energy is radiated from a source is the  Lumen.

Explanation;

  • Luminous flux is the time rate of the flow of light, or the visible energy produced from a certain light source.  It is the quantitative measure of brilliance of a light source. The unit of luminous flux is lumen (lm. 
  • Luminous intensity on the other hand is a measure of the wavelength-weighted power emitted by a light source in a particular direction per unit solid angle. Luminous intensity is measured in Candela.
  • We could say that one lumen is the luminous flux of the uniform point light source that has a luminous intensity of 1 candela.

5. Answer;

B. Plano-convex lens

A magnifying glass is an example of a plano-convex lens.  

Explanation;

  • Convex lenses are types of lenses that are thicker at the center and thinner at the edges. Plano-convex lens is a type of convex lens.
  • Plano-convex lenses are types of lenses that are positive focal length elements with one spherical surface and one flat surface.
  • These types of lenses are designed for parallel light use or simple imaging. therefore they are ideal for all purpose focusing elements.
  • Magnifying glass is a type of convex lenses and an example of plano-convex lens, that is used to produce magnified image of an object.
1) It's B. Ultraviolet rays cause substances to fluoresce.
2) It's D. The lens enlarges the image.
3) It's actually more powerful so it's B. People usually buy products based on quality than portability.
4) CORRECT
5) CORRECT

Use your understanding of d-t graphs to describe what is happening in the graph.

Answers

The speed changes after the point. C’mon Dude this is so easy

To dry the brakes, drive slowly in __________ and apply light pressure on your brake pedal.

Answers

The answer is low gear. To dry the brakes of a vehicle, one must driv slowly in low gear and apply light pressure on the vehicle's brake pedal. Dry brakes are less expensive and are cheap when it needs replacement, yet under pressure they may cause more damage to the system than wet brakes, which are better in terms of emergency.

.If you are working as a forensic scientist and are given an unknown powder from a crime scene, what would you hope to find out about the powder?

Answers

what the powder contains if its drugs a poison or anything bad

Answer:

you will hope to find out that it is nothing dangerous so anyone who came into contact with it would not be harmed.

Explanation:

A truck is moving around a circular curve at a uniform velocity of 13 m/s. If the centripetal force on the truck is 3300 N and the mass of the truck is 1600 kg, what's the radius of the curve?

Answers

Well, first of all, the truck's velocity is constantly changing, not 'uniform'.
Velocity consists of speed and direction.  So, even if the truck's speed is
constant, its direction keeps changing as long as it's on a circular curve,
so its velocity is constantly changing.

The force needed to keep a mass moving in a circle is

                                 F = (mass) x (speed)² / (radius)
                      
                             3300 N  =  (1600 kg) (13 m/s)² / R

                           3300 kg-m/s²  =  (1600 kg) (169 m²/s²) / R

                           R  =  (1600 kg) · (169 m²/s²) / (3300 kg·m/s²)

                               =  (1600 · 169 / 3300)  meters

                               =        81.9  meters     

The Correct answer to this question for Penn Foster Students is: 81.94m
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