Which of the following sequences correctly displays the energy transformation from the inside of a battery to the igniter inside a car's engine? A. Heat Energy Electrical Energy Chemical Energy B. Electrical Energy Chemical Energy Heat Energy C. Chemical Energy Electrical Energy Heat Energy D. Chemical Energy Mechanical Energy Heat Energy

Diagram-A does.

The left side has high amplitude (bright) and long wavelength (red).

The right side has low amplitude (dim) and short wavelength (violet).

Diagram-A does. The left side has high amplitude (bright) and long wavelength (red). and The right side has low amplitude (dim) and short wavelength (violet).

Waves of light emerge from a source. Both an electric and a magnetic component make up each wave. Because of this, light is also known as electromagnetic radiation.

Our brains interpret light waves by assigning different colors to the different wavelengths, but much of the light in the Universe travels with wavelengths too short or too long for the human eye to detect.

The longest wavelengths are the infrared, microwave, and radio portions of the spectrum. The shortest wavelengths of the spectrum are the ultraviolet, x-ray, and gamma radiation.

Therefore, Diagram-A does. The left side has high amplitude (bright) and long wavelength (red). and The right side has low amplitude (dim) and short wavelength (violet).

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Answer:

19.8 m/s

Explanation:

Assuming the car starts from rest, initially when it is at the top of the hill all the mechanical energy of the car is just potential energy, given by:

[tex]U=mgh[/tex]

where

m = 100 kg is the mass

g = 9.8 m/s^2 is the gravitational acceleration

h = 20 m is the height

Substituting,

[tex]U=(100 kg)(9.8 m/s^2)(20 m)=19,600 J[/tex]

At the bottom of the hill, all this energy has been converted into kinetic energy (because energy cannot be created or destroyed, but only transformed). Therefore, the kinetic energy of the car is:

[tex]K=\frac{1}{2}mv^2=19,600 J[/tex]

where

m = 100 kg is the mass of the car

v is the speed of the car at the bottom of the hill

Re-arranging this equation, we can find the value of v:

[tex]v=\sqrt{\frac{2K}{m}}=\sqrt{\frac{2(19,600 J)}{100 kg}}=19.8 m/s[/tex]

Answer:

Green light has smaller wavelength than that of orange light.

Explanation:

The wavelength of green light is 510 nm ,while that of orange light is 590 nm.

According to equation

v=f*λ

v∞λ

velocity or speed is directly proportional to wavelength,hence green slows more than orange light because wavelength of green light is smaller than that of orange light.

Answer:

Transverse wave: 1. perpendicular to the motion of the wave

Longitudinal wave: 1.parallel to the direction which the wave travels.

Explanation:

Waves are periodic oscillations that carry energy withouth transporting matter.

Depending on the direction of the oscillation, there are two types of waves:

- Transverse waves: in transverse waves, the direction of the oscillation is perpendicular to the direction of motion of the wave. Examples of transverse waves are electromagnetic waves (which consist of oscillating electric and magnetic fields that vibrate perpendicularly to the direction of motion of the wave)

- Longitudinal waves: in longitudinal waves, the direction of the oscillation is parallel to the direction of motion of the wave. Examples of longitudinal waves are sound waves (which consist of periodic vibrations of the particles of a medium, such as air. The vibrations create regions of higher density of particles, called compressions, and regions of lower density of particles, called rarefactions).

Answer:

Transverse wave : perpendicular to the motion of the wave.

Longitudinal wave : parallel to the direction which the wave travels.

Explanation:

(a) As a transverse wave travels through a medium, it displaces the particles  perpendicular to the motion of the wave. It travels in the form of crest and trough. Electromagnetic wave is an example of transverse wave.

(b) As a longitudinal wave travels through a medium, it displaces the particles parallel to the direction which the wave travels. It travels in the form of compression and rarefaction. Sound wave is an example of longitudinal wave.

The distance between the two charges is approximately 64828.5 m (or about 64.8 km).

To find the distance between two charges that exert a given force on each other, we use Coulomb's Law, which states:

[tex]\[ F = k_e \frac{|q_1 q_2|}{r^2} \][/tex]

Where:

F is the force between the charges,

[tex]k_e[/tex] is Coulomb's constant [tex](\(8.99 \times 10^9 \, \text{N} \cdot \text{m}^2/\text{C}^2\))[/tex],

[tex]q_1[/tex] and [tex]q_2[/tex] are the magnitudes of the charges,

r is the distance between the charges.

Given data:

[tex]\( q_1 = q_2 = -3.0 \, \text{C} \)[/tex]

F = 19.2 N

We need to find (r).

1. Insert the known values into Coulomb's Law:

[tex]\[ 19.2 = \left(8.99 \times 10^9 \right) \frac{|-3.0 \times -3.0|}{r^2} \][/tex]

2. Simplify the charges:

[tex]\[ 19.2 = \left(8.99 \times 10^9 \right) \frac{9.0}{r^2} \][/tex]

[tex]\[ 19.2 = 8.99 \times 10^9 \times \frac{9.0}{r^2} \][/tex]

[tex]\[ 19.2 = 80.91 \times 10^9 \times \frac{1}{r^2} \][/tex]

[tex]\[ r^2 = \frac{80.91 \times 10^9}{19.2} \][/tex]

[tex]\[ r^2 = 4.21 \times 10^9 \][/tex]

[tex]\[ r = \sqrt{4.21 \times 10^9} \][/tex]

r = 64828.5 m or 64.8 km

Answer:

The water starts flowing in the same direction as the wind.

Pressing the button: Mechanical to electrical

Waste energy from this step: Mechanical to heat

Converting electrical signal to IR: electrical to electromagnetic (infrared rays)

Waste energy from this step: electrical to heat

Chemical energy from battery: chemical to electrical

A. The Earth has evolved over time

That all depends who's measuring it.

... If one Physics student is standing on the riverbank, watching the canoe float by, he will measure the canoe's kinetic energy and say it's  108 Joules.

... If another Physics student is sitting on another boat, floating on the same river and watching the same canoe, she will say that the canoe has zero kinetic energy.

Both of them are correct. 

Explanation :

Mass of the canoe, m = 24 kg

Speed of the canoe, v = 3 m/s

Kinetic energy is said to be possessed due to the motion of the object and it is given as :

[tex]E_k=\dfrac{1}{2}mv^2[/tex]

v is the velocity of the canoe.

[tex]E_k=\dfrac{1}{2}\times 24\ kg\times (3\ m/s)^2[/tex]

[tex]E_k=108\ J[/tex]

So, the kinetic energy of the canoe is 108 J

Hence, this is the required solution.

Light, sound, or water support the claim that waves transfer energy. The speed of light and sound is the same in some cases.

A wave is a phenomenon that flows across a material medium without leaving any lasting mark. Mechanical or electromagnetic waves can be used to classify them. Transverse and longitudinal are the two main forms.

Waves transfer energy by causing particles to vibrate, yet the particles themselves travel in a perpendicular direction to the wave's horizontal movement.

As the particles travel from rest to movement and back to rest, energy is changed between potential and kinetic energy.

Hence light, sound, or water support the claim that waves transfer energy.

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Answer:

b) global climate

Explanation:

Earth's orbit around the sun is elliptical. This means, in some part of the year, the earth is closer to sun than others. This effects the global climate. A difference of about 5 degree in temperature occurs when the earth is closest and farthest from the sun. If the orbit is more rounded, the global climate would most likely change. It become more uniform.

Bases are substances that increase the concentration of hydroxide ions in water. They dissolve and dissociate to release hydroxide ions, and have properties such as feeling slippery and forming salts when added to acids.

Bases are substances that increase the concentration of hydroxide ions (OH-) in water. They do not react chemically with water but dissolve and dissociate, releasing hydroxide ions into the solution. Bases can be identified by their properties, such as feeling slippery, forming salts when added to acids, and increasing the concentration of hydroxide ions in water.

For example, when sodium hydroxide (NaOH) dissociates in water, it releases Na+ and OH- ions:

This dissociation process is complete for ionic hydroxides like NaOH, making them strong bases.

Explanation:

Wind waves are the surface waves that occurs on the free surface of water. They result from wind blowing over an area of the surface of water.

The energy is transferred from the wind in waves across the ocean.

Wave height of the ocean is affected by wind speed. If the speed of the wind is slow then only small waves will occur.

When wind moves at high speed then it transfers more energy to the water. It will result in stronger waves.

Answer:I think the answer is Wind moving at higher speeds will transfer more energy to the water, resulting in stronger waves.

Explanation: Because wind transfers energy to the ocean, if there are faster winds, more winds transfers more energy to the water.

Answer:

platinum

Explanation:

The sun stands at the center of the solar system and all other celestial bodies have their places around the sun.

The sun stands at the center of the solar system and all other celestial bodies have their places around the sun.

The following are the accurate matches of the descriptions as shown in the question.

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Sample A could potentially be a solid since it has the same volume as the container, and solids have a definite volume. However, the volume of a gas can also equal the volume of its container because gases fill the space available to them, so B is not necessarily a gas just because its volume is less than that of its container. The behavior of the samples when the container changes are not specific properties of solids or gases.

The question is asking about how to identify the states of matter of different samples based on their properties. In this case, the statements 'A is a solid because its volume is equal to the volume of the containers' and 'B is a gas because its volume is less than the volume of the containers' might be confused. Here is why: solids, liquids, and gases are different states of matter that exist. Solids have definite shape and volume, regardless of their containers. This means sample A could indeed be a solid if its volume equals the volume of the container. However, the volume of a gas is not necessarily less than the volume of its container.

Gases actually take the shape and volume of their containers, so a gas could fill the entire volume of its container if allowed. Neither of the statements 'B is a solid because it contracts as the containers change' and 'A is a gas because it contracts as the containers change' are necessarily true, as contracting is not a specific property of either solids or gases. Without more specific information about these samples, it's difficult to definitively identify their state of matter based on the provided descriptions.

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Answer:

Plates moved apart

Explanation:

Answer: Plates moved apart

Explanation:

Its a divergent boundary and that's what happens at divergent boundaries

Answer:

The Sun is hotter than Betelgeuse and cooler than Rigel.

Explanation:

The air pressure in the rigid tank Decreases.

Explanation:

A rigid tank is said to be a region where volume is always considered as a constant. During the process of cooling the rigid tank where the temperature is said to be decreased, the effect of air pressure in the tank also decreases.

Because, PV = RT, where P is the pressure, T is temperature, R is constant, V is the volume. Hence pressure is directly proportional to temperature.

Answer: C) N: Electrical energy and M: Kinetic energy

Explanation: