PLEASE HELP WILL MARK THE BRAINELIST!!!!!!
1.) The fight or flight response (2 points)
a. results from chronic stress
b. has little impact on the body
c. prepares an organism to respond to stress
d. impacts only mental processes

2.) Which of the following is a true statement about stress? (2 points)
a. Both distress and eustress are harmful
b. The fight or flight response only occurs in wild animals
c. Stress is a psychophysiological response
d. Stress hormones increase the functions of all body systems

3.) According to the American Psychological Association, what is the most significant source of stress for Americans? (2 points)
a. Health
b. Education
c. Work
d. Money

4.) Which of the following is a common source of stress for both teens and adults? (2 points)
a. Child-rearing
b. Relationships
c. Economy
d. Education

5.) How can stress be beneficial? (2 points)
a. Decreasing heart rate
b. Increasing digestion
c. Increasing immune response
d. Increasing energy

6.) Chronic stress can result in all of the following except (2 points)
a. heart disease
b. weight gain
c. depression
d. improved concentration

7.) People who experience chronic stress are more vulnerable to (2 points)
a. illness
b. economic trouble
c. therapy
d. genetic disorders

8.) Type A personality has been linked to (2 points)
a. higher rates of heart disease
b. lower levels of time urgency
c. lower levels of stress hormone
d. higher rates of job satisfaction

9.) Which of the following is characteristic of Type B personality? (2 points)
a. Tendency to multitask and rush
b. Mental and physical alertness
c. Low sense of time urgency
d. Intense drive to achieve

10.) What did Friedman and Rosenman conclude from their study? (2 points)
a. Type B personality increases vulnerability to time urgency, which decreases stress response.
b. Type A personality increases vulnerability to time urgency, which decreases stress response.
c. Type B personality increases a person's levels of stress, which in turn increases vulnerability to CHD.
d. Type A personality increases a person's levels of stress, which in turn increases vulnerability to CHD.

Answer:

The answer is B. speed of light

Explanation:

Final answer:

A plastic comb can attract small bits of paper due to the electrostatic charge created by friction. This effect is reduced in moist air as humidity conducts the charge away.

Explanation:

When a plastic comb is run through hair, it can attract small bits of paper. This is due to the electrostatic charge that is created by friction when the comb is dragged against the hair. The comb becomes negatively charged as electrons are transferred from the hair to the comb, resulting in an electrostatic force that can attract neutral objects, such as pieces of paper.

If you repeat the experiment in a moist environment, such as a bathroom after a shower, you may observe that the electrostatic effect is reduced. This is because water molecules in the air increase the humidity, which conducts the charge away, thereby neutralizing the electrostatic effect more rapidly than in dry air.

Torn paper may be more effective than cut paper because the tearing process can create more irregularities and protrusions on the edges of the paper, providing more opportunities for the electric force to act upon these points compared to the relatively smooth edges of cut paper.

early plants added oxygen to the atmosphere. They did this by photosynthesis process by absorbing the carbon dioxide from the atmosphere and giving away oxygen in return.

This was important because life is not possible without oxygen present in the atmosphere.

They consumed the carbon dioxide from the atmosphere and reduced the temperature of the planet also.

Answer:

K = 6.02 × 10⁻¹⁹ J

Explanation:

The momentum (p) of an electron is its mass (m) times its speed (v).

p = m × v

v = p / m = (1.05 × 10⁻²⁴ kg.m/s) / 9.11 × 10⁻³¹ kg = 1.15 × 10⁶ m/s

We can find the kinetic energy (K) using the following expression.

K = 1/2 × m × v²

K = 1/2 × 9.11 × 10⁻³¹ kg × (1.15 × 10⁶ m/s)²

K = 6.02 × 10⁻¹⁹ J

The electron will reach the origin first due to its greater acceleration, which is a result of its much smaller mass compared to the proton, despite the forces on both particles being equal in magnitude.

The question is asking which particle, a proton at x = -d or an electron at x = +d that are released simultaneously under the influence of electrostatic force, will reach the origin first. According to Newton's second law, force equals mass times acceleration (F = ma). Because the proton and the electron have equal and opposite charges, the magnitude of the force acting on them due to their electrical interaction will be the same. However, the mass of the proton is much greater than that of the electron, resulting in much smaller acceleration for the proton. Consequently, the electron, given its smaller mass and therefore larger acceleration, will reach the origin first.

Approximately [tex]\( 3.121 \times 10^{19} \)[/tex] electrons flow through the electrical device during the [tex]10\ seconds[/tex] when a current of [tex]5.0 \ A[/tex] is flowing.

To determine how many electrons flow through the electrical device, we can use the relationship between current, time, and the charge carried by electrons.

Given:

Current [tex]\( I = 5.0 \) A[/tex]

Time [tex]\( t = 10 \) seconds[/tex]First, calculate the total electric charge [tex]\( Q \)[/tex] that flows through the device using:

[tex]\[ Q = I \times t \][/tex]

Substitute the given values:

[tex]\[ Q = 5.0 \, \text{A} \times 10 \, \text{s} = 50 \, \text{C} \][/tex]

Now, we know that 1 Coulomb ([tex]C[/tex]) corresponds to approximately[tex]\( 6.242 \times 10^{18} \) electrons.[/tex]

To find out how many electrons [tex]\( N \)[/tex] flow through the device, convert the charge [tex]\( Q \)[/tex] into electrons:

[tex]\[ N = Q \times (6.242 \times 10^{18} \, \text{electrons/C}) \][/tex]

Substitute [tex]\( Q = 50 \, \text{C} \)[/tex]

[tex]\[ N = 50 \times 6.242 \times 10^{18} \, \text{electrons} \][/tex]

[tex]\[ N = 312.1 \times 10^{18} \, \text{electrons} \][/tex]

[tex]\[ N = 3.121 \times 10^{19} \, \text{electrons} \][/tex]

Cyclonic storm -gradpoint

Answer:

C) a powerful magnet

Explanation:

The electric current running through the wire coil in an electric motor exerts force directly onto A) the battery. B) an aluminum axle. C) a powerful magnet. D) a rubber insulator.

when current is pass to the coil, an electromagnetic force field is produced. The electromagnetic force field produced then have an impact on the magnet which drives the shaft to move

Using the equation for the speed of light, we find that the wavelength of a radio wave broadcasting at 102.1 MHz frequency in Springfield is approximately 2.94 meters.

The length of a wave, often termed wavelength, can be deduced if the frequency is known, using the formula of the speed of light, which is wavelength times frequency (or c = λν). In this equation, 'c' signifies the speed of light (3 x 10^8 m/s), 'λ' is the wavelength, and 'ν' is the frequency. Given frequency = 102.1 MHz = 102.1 x 10^6 Hz, we can rearrange the formula to find the wavelength: λ = c/ν = 3 x 10^8 m/s / 102.1 x 10^6 Hz = 2.94 m. Therefore, the length of the wave is approximately 2.94 meters.

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Making a mental picture of the way a volcano erupts to remember how a volcano functions is called visualization.

Visualization is the process whereby a person makes or forms a mental picture of a particular situation or occurrence in order to better understand that occurrence.

Picturing the way a volcano erupts to remember how a volcano functions is a process of visualization.

A mental picture of the volcano is made by the individual.

Therefore, Picturing the way a volcano erupts to remember how a volcano functions is called visualization.

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The hydrogen line at 656.46 nm shifts to about 655.80 nm if a star is traveling 300 km/s toward Earth.

Using the Doppler Effect to Determine the Wavelength Shift

Use the Doppler shift formula for wavelengths:

Plugging in the values:

Calculate the ratio:

Evaluate the square root:

Compute the shifted wavelength:

The 656.46-nm line would shift to approximately 655.80 nm if the star were moving towards Earth at 300 km/s.

Complete question:

Suppose that you'd like to find out if a distant star is moving relative to the earth. The star is much too far away to detect any change in its brightness as it moves toward or away from the earth. Instead we can use the Doppler effect to determine its relative speed. For this problem we are going to look at the spectral lines from hydrogen, specifically the one with a wavelength of 656.46 nm. Even at such low fractions of the speed of light these stars are moving quite quickly (thousands of kilometers a second) compared to the standard velocity dispersion in the Milky Way galaxy (which is around 300 km/s). Suppose the star was actually moving toward the earth at a more reasonable 300 km/s. What wavelength I would the 656.46-nm line move to? Use 299, 792 km/s for the speed of light. Express your answer in nanometers to five significant figures.

Electric field vectors point away from protons because protons are positively charged, and electric field lines always point away from positive charges and toward negative charges.

The direction of electric field vectors is determined by the nature of the charge that produces them. Specifically, electric field lines point away from positive charges and toward negative charges. This is because the electric field vector always points in the direction of the force that would be exerted on a positive test charge.

1. Gravitational fields always point towards the source of the field (like toward Earth) because gravity is an attractive force.

2. On the other hand, electric fields can be either attractive or repulsive. For a positive charge, the electric field vectors radiate outward because like charges repel, meaning if you place a positive test charge near a proton, it will be repelled outward.

Therefore, the correct answer is: protons are positively charged (option 4).

To find the velocity of a 20-kg block descending 0.5 m, use conservation of energy, equating the potential energy lost by the block to the kinetic energy gained by the block and the rotational kinetic energy of the spool. Determine kinetic energy and rotational energy using the block's mass, spool's radius of gyration, and their shared velocity.

To determine the velocity of the 20-kg block after it descends 0.5 m, we can use the principles of conservation of energy. The system consists of a spool and a block, and since the block is descending, gravitational potential energy is being converted into kinetic energy and rotational energy of the spool.

We know that the potential energy (PE) lost by the block is equal to the kinetic energy (KE) gained by the block plus the rotational kinetic energy (RKE) gained by the spool:

PE = KE + RKE

PE of the block = m·g·h, where m is the mass of the block, g is the acceleration due to gravity (9.81 m/s2), and h is the height descended (0.5 m).

KE of the block = 1/2 m·v2, where v is the velocity of the block we want to find.

RKE of the spool = 1/2 I·ω2, with I being the moment of inertia of the spool and ω the angular velocity. Since the spool and the block are connected, ω = v / r, where r is the radius of the spool.

Using the radius of gyration ko, the moment of inertia I for the spool is I = mspool·ko2. By substituting all these expressions into the energy conservation equation and solving for v, we can find the velocity of the block.

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Other forms of energy.

The step in an investigation of arson that help the insurance claims the most is the samples of ignition sources or the processing of evidence at the scene. The people with the insurance claims are careful in gathering investigation data for they will used it as a basis for their claim.

Answer:

Since it is for insurance purposes, inventory would be required.

Explanation: inventory is needed to file a claim. Also, I took the test and got it correct ;)

Answer:

Observed lifetime [tex]= 3.0\mu s[/tex]

Explanation:

The lifetime of muon in the muon’s reference frame.

[tex]t^{_{0}}=2.2\mu s[/tex]

The lifetime of muon in observer’s rest frame.

[tex]t=\gamma t_{0}[/tex]

Here the  

[tex]\gamma =\dfrac{1}{\sqrt{1-\frac{V^2}{C^2}}}[/tex]

[tex]\gamma[/tex] is the relativistic factor.  

V = Speed of muon

C = Speed of light

The muon’s speed of 70% of light speed.  

Hence,

[tex]V=\dfrac{70}{100}C[/tex]

V = 0.7C

[tex]=\dfrac{1}{\sqrt{1-\frac{(0.7C)^2}{C^2}}}[/tex]

[tex]=\dfrac{1}{\sqrt{1-0.49}}[/tex]

[tex]=\dfrac{1}{\sqrt{0.51}}[/tex]

[tex]=\dfrac{1}{0.71}[/tex]

= 1.4

The lifetime of muon in observer’s rest frame.

[tex]t=\gamma t_{0}[/tex]

[tex]t=1.4\times 2.2\mu s[/tex]

[tex]t=3.0\mu s[/tex]

Further explanation:

The muon is a lepton which decays to form an electron or positron. The lifetime of the muon is 2.20 microseconds. The muon lifetime in the muon reference frame is .  

But the observed lifetime [tex]= \gamma =\frac{1}{\sqrt{1-\frac{V^2}{C^2}}}[/tex]

Learn more:

1. Speed of muon https://brainly.com/question/10048817 (answer by skyluke89)

2. Muon https://brainly.com/question/13198853 answer by skyluke89 )

Keywords: Muon, Speed of light, life time.