The force of friction on a sliding object is 10n. the applied force needed to maintain a constant velocity is:

The wavelength of the light is approximately 633 nanometers (nm).

Wavelength is simply the distance over which the shapes of waves are repeated. It is expressed as:

λ = c ÷ f

Where λ is wavelength, c is speed of light and f is frequency.

Given the parameter:

Frequency f = 4.74 × 10¹⁴ Hz

Speed of light c = 3.00 × 10⁸ m/s

Wavelength λ =?

Plug the values into the above formula and solve for the wavelength λ:

λ = c ÷ f

λ = (3.00 × 10⁸) ÷ (4.74 × 10¹⁴)

λ = 6.33 × 10⁻⁷ meters

λ = 6.33 × 10⁻⁷ meters × 1,000,000,000

λ = 633 nm

Therefore, the wavelength measures 633 nm.

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The driver's acceleration is approximately 0.08 m/s^2.

The driver's initial speed was 80 km/h and he reaches 110 km/h after driving a distance of 500 m. To find the driver's acceleration, we can use the formula:

Acceleration = (Final Speed - Initial Speed) / Time

Since the distance is given, we need to find the time taken.

Using the formula:

Distance = Initial Speed * Time + (1/2) * Acceleration * Time^2

We can substitute the given values (Initial Speed = 80 km/h, Final Speed = 110 km/h, Distance = 500 m) and solve for the time. Once we have the time, we can substitute it back into the first equation to find the acceleration.

After calculating, the driver's acceleration is approximately 0.08 m/s^2.

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The line is a conceptual 'line of sight' from the football to the sideline, and a yard, used for measurements on the field, is equal to three feet; this standardization ensures fairness in football games.

The imaginary line from the tip of the football to the sideline in a football game is often referred to as a line of sight or simply directional line. This is not a technical term defined in the rules of football, but rather a conceptual way to describe that specific direct path. When discussing measurements within the context of a football field, it is important to understand the length of a yard. A yard is a standard unit of linear measure equal to three feet. Moving the ball ten yards leads to a first down and this distance is consistent across all professional football fields, ensuring the game's uniformity.

The light pulse that will reach you first is: (C). the two light pulses will reach you at the same time.

Light according to physics can be defined as electromagnetic radiations that are visible to the eyes. Light speed in a vacuum is always constant and currently the speed of light in air is 3 * [tex]10^{8}[/tex] m/s

A light pulse is defined as an optical pulse of flashes of light.

In conclusion, The light pulse that will reach you first is the two light pulses will reach you at the same time, since the light was sent at the same distance.

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The mass of the ball is approximately 18.57 grams.

To determine the mass of a ball with a given velocity and wavelength, we can use the de Broglie relation, which states that the wavelength [tex]\( \lambda \)[/tex]of a particle is inversely proportional to its momentum  p . The de Broglie relation is given by:

[tex]\[ \lambda = \frac{h}{p} \][/tex]

where h is Planck's constant[tex]6.626 \times 10^{-34} \)[/tex] Js) and  p  is the momentum of the particle. The momentum can also be expressed as the product of the mass  m of the particle and its velocity  v :

p = mv

Combining these two equations, we get:

[tex]\[ \lambda = \frac{h}{mv} \][/tex]

Rearranging the equation to solve for mass  m , we have:

[tex]\[ m = \frac{h}{\lambda v} \][/tex]

Given:

- Velocity v = 40.0 m/s

- Wavelength[tex]\( \lambda = 8.92 \times 10^{-34} \)[/tex]m

- Planck's constant \[tex]h = 6.626 \times 10^{-34} \)[/tex] Js

Plugging in the values, we get:

[tex]\[ m = \frac{6.626 \times 10^{-34} \text{ Js}}{(8.92 \times 10^{-34} \text{ m})(40.0 \text{ m/s})} \][/tex]

[tex]\[ m = \frac{6.626 \times 10^{-34}}{8.92 \times 10^{-34} \times 40.0} \][/tex]

[tex]\[ m = \frac{6.626}{8.92 \times 40.0} \][/tex]

[tex]\[ m \ =\frac{6.626}{356.8} \][/tex]

[tex]\[ m \ = 0.01857 \text{ kg} \][/tex]

Converting the mass to grams (since 1 kg = 1000 g), we have:

[tex]\[ m \ = 0.01857 \text{ kg} \times 1000 \text{ g/kg} \][/tex]

[tex]\[ m \ =18.57 \text{ g} \][/tex]

A carbon atom and an oxygen atom share four electrons in a double covalent bond in a molecule of carbon dioxide to achieve stability.

The carbon and oxygen atoms share electrons through covalent bonding, which is a type of chemical bond where atoms share pairs of electrons. In the case of carbon dioxide (O=C=O), a molecule consisting of a single carbon atom and two oxygen atoms, there are two double covalent bonds to achieve stability. Each double bond involves the sharing of two pairs of electrons (four electrons in total) between the carbon and oxygen atoms. Hence, this indicates that a carbon atom and an oxygen atom share four electrons in a double covalent bond.

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I believe this question ask for the energy dissipated by friction.

The overall energy equation for this is:

F = PE – KE

where F is friction loss, PE is potential energy = m g h, KE is kinetic energy = 0.5 m v^2

F = 66 kg * 9.8 m/s^2 * 170 m – 0.5 * 66  kg * (11 m/s)^2

F = 105,963 J  ~  106,000 J 

A total of 1.1 × 10⁵Joules energy was dissipated by friction

[tex]\texttt{ }[/tex]

Let's recall Kinetic Energy Formula as follows:

[tex]Ek = \frac{1}{2}mv^2[/tex]

Ek = Kinetic Energy ( Joule )

m = mass of the object ( kg )

v = speed of the object ( m/s )

Let us now tackle the problem !

[tex]\texttt{ }[/tex]

Complete Questions:

A 66-kg skier starts from rest at the top of a 1200-m long trail which drops a total of 170 m from top to bottom. at the bottom, the skier is moving 11.0 m/s. How much energy was dissipated by friction?

Given:

mass of skier = m = 66 kg

height of trail = h = 170 m

velocity of skier = v = 11.0 m/s

Asked:

work done by friction = W = ?

Solution:

[tex]W = Ep - Ek[/tex]

[tex]W = mgh - \frac{1}{2}mv^2[/tex]

[tex]W = 66(9.8)(170) - \frac{1}{2}(66)(11.0)^2[/tex]

[tex]W = 109956 - 3993[/tex]

[tex]W = 105963[/tex] [tex]\texttt{ J}[/tex]

[tex]W \approx 1.1 \times 10^5 \texttt{ J}[/tex]

[tex]\texttt{ }[/tex]

A total of 1.1 × 10⁵ Joules energy was dissipated by friction

[tex]\texttt{ }[/tex]

[tex]\texttt{ }[/tex]

Grade: High School

Subject: Physics

Chapter: Dynamics

According to the definition of mechanical work, the pushing on a rock accomplishes no work done unless there is a movement in the same direction as the direction of the force.

Mechanical work is the amount of energy which is transferred by a force that is applied on the object. Like that of other energies, it is a scalar quantity, with the SI units of joules. The heat conduction is not considered to be a form of work done, since there is no macroscopically measurable force, only microscopic forces occurring in atomic collisions.

According to the definition of mechanical work, the pushing on a rock accomplishes no work unless there is a movement in the same direction as that of the direction of the force applied.

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A motorcycle mainly wastes energy as heat energy and sound energy. In the engine, chemical energy is transformed into mechanical energy. However, the engine is inefficient and much of the chemical energy is lost as heat energy. Also, some of the energy is transformed to sound energy. This explains why the motorcycle is noisy and has an exhaust pipe.

Answer: it's A this will help you

Explanation:

Answer:

1= Cerebrum.

2=Ventricles  

3.Cerebellum.

4.Brain stem  

5.Spinal cord.

Explanation:

You have to convert it to newtons so:

4,000 N

Only a hurricanes speed is not enough information to be able to warn people to evacuate.

The total distance covered by any object per unit of time is known as speed. It depends only on the magnitude of the moving object. The unit of speed is a meter/second. The generally considered unit for speed is a meter per second.

Only knowing a hurricane's speed is insufficient information to issue an evacuation warning because the speed does not reflect the strength of the hurricanes, and the speed of the hurricanes does not tell anything about the directional, movement of the hurricanes as we know the speed is a scalar quantity which does not tell anything about the direction of the moving object.

Thus, only knowing a hurricane's speed is insufficient information to issue an evacuation warning.

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The answer is B. Perfect.

Final answer:

The correct option is (b) the wavelength of the waves. Adele can differentiate between colors based on the wavelength of light waves. Color perception is linked to light's wavelength, with blue having shorter wavelengths, and red longer wavelengths. Therefore, wavelength is key in distinguishing between colors.

Explanation:

Adele is able to differentiate between the colors yellow, green, and blue in her room because of the wavelength of the light waves. Light that is visible to humans makes up only a small portion of the electromagnetic spectrum, and within this spectrum, color perception is directly linked to wavelength.

Longer wavelengths are associated with the color red, intermediate wavelengths with green, and shorter wavelengths with blue and violet colors. This explains why Adele perceives different colors, as each hue represents light of a specific range of wavelengths.

Thus, the correct answer to what light wave attribute allows Adele to differentiate between these colors is b. the wavelength of the waves.

When organizing colors by wavelength, from shortest to longest, it goes from blue to yellow to red. Conversely, when arranging according to frequency, which is inversely related to wavelength, the order is red (lowest frequency), yellow, and then blue (highest frequency).

This demonstrates the inverse relationship between wavelength and frequency in the electromagnetic spectrum.

An environmental agent can be a biological, chemical, or physical factor causing harm to health and ecosystems, with examples including heavy metals and pesticides like DDT. These agents can cause immediate to long-term damage and may lead to resistance in the target organism. Bioremediation is a strategy used to combat environmental contamination.

An environmental agent is a biological, chemical, or physical factor that has the potential to cause harm to humans, ecosystems, or both. Chemical agents, such as heavy metals like mercury, lead, and cadmium, pesticides and endocrine disrupters, contribute significantly to environmental damage and can pose serious health risks. These agents are often by-products of industrial activities and can biomagnify in the food chain, leading to toxic levels in organisms at higher trophic levels, such as swordfish, which can then affect humans who consume them.

Environmental contamination can stem from diverse sources, impacting air, water, and soil. Contaminants can lead to acute or chronic health problems, affecting specific organs, cells, or biochemical pathways in the body. The field of environmental toxicology strives to understand and mitigate these effects, knowing that substances such as DDT and other pesticides have both immediate and long-term ecological consequences, while also becoming less effective over time as pests develop resistance.

Examples of Environmental Agents and Their Impact:

It is vital to address these environmental threats by employing strategies such as bioremediation, using plants to clean up soils from toxic metals, for example, to safeguard human health and protect ecosystems.

Answer: The correct answer is an emission line spectrum.

Explanation:

When the electrons are excited to the higher energy level, the energy is absorbed in this case.

When the electrons in the atom step down to lower energy levels in a thin cloud of hot gas then the radiation will emit.

The electron will lose energy in this case in the form of radiation. There will be an emission line spectrum.

When the electrons step down to lower energy level, emission line spectrum produced.

Further Explanation:

The spectrum of emission of an element is spectrum of wavelength of radiation emitted during the transition of electron from a higher energy level to lower energy level. The energy of photon emitted in this process is equal to difference between the two levels. There is possibility of different types of transition for an atom and energy difference is specific for each atom.

When electrons are excited in atom, extra energy forces electrons to higher energy orbital. When electron goes to lower state, energy releases in form of photon. This emitted photon form the emission line spectrum.

Emission is process in which higher energy state of the particle convert into a lower state through the emission of photon, which produces light. The frequency of emitted light is function of transitional energy.

Since energy of system conserved, difference in energy between two states equal to energy carried by photon. The energy state of transitions results in emission of large frequency range.

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Answer Details:

Grade: High School

Subject: Physics

Chapter: Modern physics

Keywords:

Electrons, step, lower, energy, levels, thin, cloud, hot, gas, emission, line, spectrum, ground, state, higher, radiation, transition, energy, light and photon.

Answer:

Velocity is a speed with a direction vector associated with it speed is just a displacement per unit of time which makes it scalar

Explanation

Answer:

This phenomenon is called chromatic aberration. This happens when light of different wavelengths focuses at different points. A converging lens is used to help light of different wavelengths focuses at a common point.

Explanation:

This phenomenon is called chromatic aberration. This happens when light of different wavelengths focuses at different points. A converging lens is used to help light of different wavelengths focus at a common point.

"Chromatic aberration is a phenomenon in which light rays passing through a lens focus at different points, depending on their wavelength. There are two types of chromatic aberration: axial chromatic aberration and lateral chromatic aberration."

"Wavelength is the distance travelled by a particle on the wave when it completes one oscillation. Meters (m) is the SI unit. "Amplitude is the maximum distance covered by the particle from its mean position. The number of oscillations completed in unit time is known as frequency.

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The formula for this law is P1/T1 = P2/T2. Temperatures must always be expressed in kelvins when using gas laws.

Gay-Lussac's Law, also known as Amontons' law, states that the pressure of a gas is directly proportional to its absolute temperature, provided that the volume and amount of gas remain constant. The mathematical expression for Gay-Lussac's Law is:

P1/T1 = P2/T2

where P1 and P2 are the initial and final pressures, and T1 and T2 are the initial and final absolute temperatures (in Kelvin). This means that if the temperature of a gas increases, its pressure also increases, as long as the volume does not change.

For example, if a gas in a sealed container is heated from 300 K to 600 K, its pressure will double assuming the volume of the container remains constant.

It is important to note that temperatures must always be expressed in kelvins when using gas laws. Gay-Lussac's Law is similar to Charles's Law but focuses on the relationship between temperature and pressure instead of temperature and volume.

Answer: Plato users - B.  radio telescope

Explanation:  just took test