What is the high point of a transverse wave

Answers

Answer 1

Answer: The highest point of a transverse wave is called a crest. The lowest point between two crests is known by the name of trough. The distance between two crests or two troughs are called by the name of wavelength. The highest part of a crest and the deepest or lowest part of a trough is known by the name of amplitude.

Answer 2

Answer:

Final answer:

The high point of a transverse wave is called the crest or the peak, which is the point of maximum displacement. It can be observed by viewing a wave from the top or the side, and its height is measured as the amplitude of the wave.

Explanation:

The high point of a transverse wave, such as a light wave, is called the crest or peak. This is the point of maximum displacement or deformation from the equilibrium position in a transverse wave. If one visualizes a wave as a series of high and low points, similar to viewing the ocean waves from above, the crest would be the very top of the wave, whereas the trough would be the very bottom.

Referencing figures 27.4 and 1.25, a transverse wave can be viewed from above and from the side. From the side, one observes how the electric or magnetic fields vary with time. Furthermore, figure 5.5 shows that the amplitude of a wave (the height) is measured from the peak to the trough. This, combined with the wavelength (measured from peak to peak), helps in understanding the wave's properties.

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Technician A says that an oxygen sensor can have one, two, three, four, or more wires, depending on the style and design. Technician B says that if the exhaust has little oxygen, the voltage of the oxygen sensor will be close to 1 volt (1000 mV) and close to zero if there is high oxygen content in the exhaust. Who is right?

Answers

Answer:

Both technicians A and B are right.

Explanation:

-The most common application is to measure the exhaust-gas concentration of oxygen.The probe typically has four wires attached to it: two for the lambda output, and two. The number of wires depends on design and style.

-An oxygen sensor will typically generate up to about 0.9 volts( $\approx 1.0V$ ) when the fuel mixture is rich and there is little unburned oxygen in the exhaust. When the mixture is lean, the sensor's output voltage will drop down to about 0.1( $\approx 0.0V$ )volts

A car battery with a 12 V emf and an internal resistance of 0.11 Ω is being charged with a current of 56 A. What are (a) the potential difference across the terminals, (b) the rate Pr of energy dissipation inside the battery and (c) the rate Pemf of energy conversion to chemical form? When the battery is used to supply 56 A to the starter motor, what are (d) V and (e) Pr

Answers

Answer:

Part a)

V = 18.16 V

Part b)

$P_r = 345 Watt$

Part c)

P = 672 Watt

Part d)

V = 5.84 V

Part e)

$P_r = 345 Watt$

Explanation:

Part a)

When battery is in charging mode

then the potential difference at the terminal of the cell is more than its EMF and it is given as

$\Delta V = E + i r$

here we have

$E = 12 V$

$i = 56 A$

$r = 0.11$

now we have

$\Delta V = 12 + (0.11)(56) = 18.16 V$

Part b)

Rate of energy dissipation inside the battery is the energy across internal resistance

so it is given as

$P_r = i^2 r$

$P_r = 56^2 (0.11)$

$P_r = 345 W$

Part c)

Rate of energy conversion into EMF is given as

$P_(emf) = i E$

$P_(emf) = (56)(12)$

$P_(emf) = 672 Watt$

Now battery is giving current to other circuit so now it is discharging

now we have

Part d)

$V = E - i r$

$V = 12 - (56)(0.11)$

$V = 12 - 6.16 = 5.84 V$

Part e)

now the rate of energy dissipation is given as

$P_r = i^2 r$

$P_r = 56^2 (0.11)$

$P_r = 345 W$

What happens in energy transformations with the total amount of energy?

Answers

Answer:

Energy transformation is when energy changes from one form to another – like in a hydroelectric dam that transforms the kinetic energy of water into electrical energy. While energy can be transferred or transformed, the total amount of energy does not change – this is called energy conservation.

Explanation:

cause it is energy

at a pressure 44 kpa the gas in a cylinder has a volume of 29 liters assuming temperature remains the same,if the volume of the gas is decreased to 4liters what is the new pressure?kpa

Answers

Assuming the gas is ideal, the ideal gas law can be used. To make things simpler, Boyle's law can also be used because it denotes the inverse relationship between pressure and volume at constant temperature. The solution to be used is as follows

P1V1 = P2V2
(44)(29) = P2(4)
P2 = 319 KPa

Edwin Hubble categorized galaxies according to theirA. shapes.
B. colors.
C. food supplies.
D. inhabitants.

Answers

Your answer would be that Hubble categorized galaxies by their shape.

If you see a spacecraft moving past you at 90% of the speed of light, and if you are able to watch a clock on the spacecraft, then according to special relativity you will see the clock

Answers

Answer:

Measures a slower course of time

Explanation:

According to the theory of relativity, there is a difference in the time measured by two observers, due to a relative speed difference between them. In other words, you observe that a clock that moves with respect to you will measure a slower course of time than a clock that is at rest in your frame of reference.

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