Metals corrode when left exposed to substances in the environment. State why aluminium quickly becomes protected from further corrosion.

Answer:

Time interval

Explanation:

The amount of time it takes to wake up is a time interval because it has a start and stop time. For example, if someone's alarm goes off at 7AM and they fully wake up at 7:15AM, then the period from 7AM-7:15AM is a time interval.

The sound has greater intensity if the string is attached to the guitar body as the sound power is spread over a larger area at the listener's position.  

A sound wave is  basically  delivered by a vibrating object. As a guitar string vibrates, it sets encompassing air particles into vibrational movement. The frequency at which these air particles vibrate is rise to the frequency of vibration of the guitar string. The back and forward vibrations of the surrounding air particles make a pressure wave that voyages outward from its source. This pressure wave comprises compressions and rarefactions. The compressions are regions of high pressure, where the air particles are compressed into a little region of space. The rarefactions are districts of low pressure, where the air particles are spread and separated. This substituting design of compressions and rarefactions is known as a sound wave. A guitar string vibrating by itself does not deliver a really loud sound. The string itself disturbs exceptionally small air since its little surface zone makes exceptionally small contact with encompassing air particles. In any case, in case the guitar string is joined to a bigger object, such as a wooden sound box, at that point more air is aggravated. The guitar string forces the sound box to start vibrating at the same frequency as the string. The sound box in turn powers surrounding air particles into vibrational movement. Since of the huge surface range of the sound box, more discuss particles are set into vibrational movement. This produces a more capability of hearing a sound.

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Answer:

specific heat capacity = 5 J/kg °C

Explanation:

To calculate the specific heat capacity of a substance, we can use the following formula:

[tex]\boxed{c= \frac{Q}{m \Delta T}}[/tex],

where:

• c = specific heat capacity

• Q = heat energy

• m = mass of substance

• ΔT = change in temperature

We know from the question that Q = 5200J, m = 2kg, and ΔT = 47 - 42 = 5°C.

Using this information as well as the formula above, we can calculate the specific heat capacity of the substance:

c = [tex]\frac{5200\ \mathrm{J}}{2\ \mathrm{kg} \times 5^{\circ}\mathrm{C}}[/tex]

  = 5 J/kg °C

Therefore the specific heat capacity of the substance is 5 J/kg °C.

Answer: 520 J

Explanation:

Answer:

C

Explanation:

Average velocity =  (10+30) / 2 = 20 m/s

80 m / 20 m/s = 4 seconds

It would take a truck to increase its speed from 10 m/s to 30 m/s in 2.0 s. Option D is the correct answer.

To determine how long it would take for the truck to increase its speed from 10 m/s to 30 m/s, we can use the equations of motion. Option D is the correct answer.

The first equation we will use is: v = u + at

where v is the final velocity, u is the initial velocity, a is the acceleration, and t is the time.

Given:

Initial velocity, u = 10 m/s

Final velocity, v = 30 m/s

We need to find the time, t. Since the truck is accelerating uniformly, we can assume a constant acceleration. Next, we use another equation of motion: v² = u² + 2as, where s is the distance traveled.

Given:

Distance, s = 80 m

Initial velocity, u = 10 m/s

Final velocity, v = 30 m/s

Rearranging the equation, we get: s = (v² - u²) ÷ (2a)

Substituting the given values, we have: 80 = (30² - 10²) ÷ (2a)

Simplifying the equation, we find:

80 = (900 - 100) / (2a)

80 = 800 / (2a)

2a = 800 / 80

a = 10 m/s²

Now, we can go back to the first equation: v = u + at

Substituting the known values: 30 = 10 + 10t

Simplifying, we find: 10t = 20

t = 2 seconds

Therefore, it would take the truck 2.0 seconds to increase its speed from 10 m/s to 30 m/s.

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John will take 0.6 min or 36 seconds more faster during uniform motion than before.

We need to know about the uniform motion to solve this problem. The uniform motion is an object's motion under acceleration. It should follow the rule

s = v . t

where v is velocity, t is time and s is displacement.

From the question above, we know that

v1 = 350 m/min

v2 = 375 m/min

s = 3150 m

Find the initial time

s = v1 . t

3150 = 350 . t

t = 9 min

Find second time

s = v2 . t

3150 = 375 .t

t = 8.4 min

John will take 0.6 min or 36 seconds more faster than before

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v ^2f-v^2i= 2a  Replace the known values,

0-16^2=2 (-4.2)S, S= 256/8.4, S= 30.4m. The maximum distance a snowboarder could travel on a 25o slope was 30.4 meters.

The snowboarder travels a distance of H=50 meters on the hill. The hill slopes at a 15 degree slant. snowboarder's horizontal distance traveled after passing a slope, S=10m Crossing a horizontal distance, there is a 25-degree rising slope.

The snowboarder's initial speed at location A is u = 0 m/s. Let v be the representation of the final velocity. G = 10m/s2 is the acceleration caused by gravity. The snowboarder's acceleration at the incline is = a = 10 sin (15 degree)

The snowboarder moved 10 meters horizontally after reaching the bottom of the hill. Before she reaches the steep slope, as depicted in the illustration, her pace is unchanged. Now, at the top of the hill, where she could go the farthest, S

Vf = 0 m/sec would be the final speed.

To calculate the furthest she could go, write the equation of motion,

v ^2f-v^2i= 2a  Replace the known values,

0-16^2=2 (-4.2)S, S= 256/8.4, S= 30.4m. The maximum distance a snowboarder could travel on a 25o slope was 30.4 meters.

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Answer:

Acceleration (a) = 0.5 mp[tex]s^{2}[/tex]

Explanation:

Given,

Object starts from rest, hence the initial velocity of the object is said to be 0

Velocity in the next 8 seconds is 4.0 m/s

u = 0 m/s

v = 4 m/s

t = 8 secs

We know,

a = (v-u)/t

=> a = (4-0)/8

=> a = 4/8 = 0.5 m/[tex]s^{2}[/tex]

d N₂ + 3H2 → 2NH3 equation shows that mass is conserved in the chemical reaction

According to the rule of conservation of mass, mass is neither generated nor destroyed during a chemical process. For instance, when coal is burnt, the carbon atom in it transforms into carbon dioxide.

According to the law of conservation of mass, a chemical reaction will not cause a change in the mass of a closed system. Mass just moves; it is neither generated nor destroyed.

Understanding and producing different chemical reactions depend heavily on this rule. Researchers might anticipate how much the result would be if they knew the names and amounts of the reactants for each reaction.

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[tex]\quad \huge \quad \quad \boxed{ \tt \:Answer }[/tex]

[tex]\qquad \tt \rightarrow \: v = 13 \:\: m/s[/tex]

____________________________________

[tex] \large \tt Solution \: : [/tex]

By third equation of motion :

[tex]\qquad \tt \rightarrow \: {v}^{2} = {u}^{2} + 2as[/tex]

[tex]\qquad \tt \rightarrow \: {v}^{2} = (3) {}^{2} + 2(2)(40) [/tex]

[tex]\qquad \tt \rightarrow \: {v}^{2} = 9 + 160[/tex]

[tex]\qquad \tt \rightarrow \: {v}^{2} = 169[/tex]

[tex]\qquad \tt \rightarrow \: v = 169[/tex]

[tex]\qquad \tt \rightarrow \: v = 13[/tex]

so, speed of the car after that time is : 13 m/s

Answered by : ❝ AǫᴜᴀWɪᴢ ❞

The minimum speed you should drive over the cliff so that the car can cross the river is 15 m/s

we'll begin by obtainig the time taken for the car to cross the river. This can be obtained as follow:

h = ½gt²

20 = ½ × 9.8 × t²

20 = 4.9 × t²

Divide both side by 4.9

t² = 20 / 4.9

Take the square root of both side

t = √(20/ 4.9)

t = 2 s

Finally, we shall determine the minimum speed as follow:

s = ut

30 = u × 2

Divide both sides by 2

u = 30 / 2

u = 15 m/s

Thus, we can conclude that the minimum speed needed is 15 m/s

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The minimum speed should be 15 m/s to drive over the cliff so that the car will cross the river.

The speed of an item, which is a scalar quantity in everyday usage and kinematics, can be defined as the size of the change in position per unit of time or the size of the change in position over time for an object.

The given values in the question are :

Height of the cliff, h = 20 m

The acceleration due to gravity, g = 9.8 m/s².

Use the formula,

h = 1/2gt²

20 = 1/2(9.8)t²

20 = 4.9 t²

t = 2 seconds.

Now, calculate the minimum speed,

s = ut

30 = u × 2

u = 30/2

u = 15 m/s.

Hence, the minimum speed required by the car to cross the river is 15 m/s.

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The force exerted on the post by the roller,

The equilibrium for bracket,

∑ [tex]F_{y}[/tex] = 0

T sin 20° - 270 = 0

T = 789.43 N

[tex]T_{x}[/tex] = ( 789.43 ) cos 20°

[tex]T_{x}[/tex] = 741.82 N

[tex]T_{y}[/tex] = ( 789.43 ) sin 20°

[tex]T_{y}[/tex] = 270 N

The 270 N force and [tex]T_{y}[/tex] forms a couple

τ = ( 270 ) 0.25

τ =  67.5 N m Clockwise

∑ [tex]M_{B}[/tex] = 0

( 741.82 * 0.125 ) - 67.5 + [tex]F_{CD}[/tex] ( 0.2 ) = 0

[tex]F_{CD}[/tex] = - 126.138 N

∑ [tex]F_{y}[/tex] = 0

[tex]F_{AB}[/tex] - 126.138 - 741.82 = 0

[tex]F_{AB}[/tex] = 867.96 N

The direction of force [tex]F_{CD}[/tex] is towards left and the direction of force [tex]F_{AB}[/tex] is towards right. The force [tex]F_{CD}[/tex] is exerted by roller B and the force [tex]F_{AB}[/tex] is exerted by roller C. Rollers A and D exert no force. The force exerted by the rollers exert oppositely on the post. So the force exerted by roller C is 126.1 N and the force exerted by roller B is 867.96 N.

Therefore, the force exerted on the post by the roller,

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The simplest type of capacitor is the parallel plate capacitor. The capacitance value in Farads is fixed by the surface area of the conductive plates and the space between them, and it can be built using two metal or metallized foil plates placed parallel to one another at a distance.

Chloroprene is polymerized to create the family of synthetic rubbers known as neoprene. Good chemical stability and flexibility are displayed by neoprene over a broad temperature range.

A parallel-plate capacitor's capacitance is calculated by multiplying the dielectric constant by the permittivity of free space, the area of the plates, and the distance between them.

The generalised formula for a parallel plate capacitor's capacitance is given as C = ε(A/d), where stands for the absolute permittivity of the material being utilised as the dielectric. The value of the dielectric constant, commonly referred to as the "permittivity of open space," is 8.854 x 10-12 Farads per metre.

Therefore, Capacitance = ε x (area of plates / thickness of rubber)

                                        = 8.854 x 10^-12 *(1700 / 0.022)

                                        = 68.4173 farads

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The gravitational force between them will change by a factor 1/9.

We need to know about gravitational force to solve this problem. The gravitational force is the force caused by two masses objects. The magnitude of gravitational force can be determined as

F = G.m1.m2 / R²

where F is the gravitational force, G is the gravitational constant (6.674 × 10¯¹¹ Nm²/kg²), m1 and m2 are the mass of the object and R is the radius.

From the question above, we know that

R2 = 3R1

By substituting the following parameters, we get

F2/F1 = G.m1.m2 / R2² / G.m1.m2 / R1²

F2/F1 = G.m1.m2 / (3R1)² / G.m1.m2 / R1²

F2/F1 = 1/9

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1. The magnitude of the bicyclist's acceleration is 4.09 m/s²

2. The distance travelled by the bicyclist during the time is 39.6 m

1. How to determine the acceleration

We can obtain the acceleration of the bicyclist as illustrated below:

a = (v – u) / t

a = (18 – 0) / 4.40

a = 18 / 4.40

a = 4.09 m/s²

Thus, the acceleration of the bicyclist is 4.09 m/s²

2. How to determine the distance travelled

The distance travelled by the bicyclist can be obtained as       follow:        

v² = u² + 2as

18² = 0² + (2 × 4.09 × s)

324 = 0 + 8.18s

324 = 8.18s

Divide both side by 8.18

s = 324 / 8.18

s = 39.6 m

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Materials required for the experiment of limiting force borne by string:-

Steps of procedure for for the experiment of limiting force borne by string:-

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Friction comes in two flavors: kinetic and static. Static friction affects a system or an object at rest, whereas kinetic friction affects an object in motion.

Typically, the maximal static friction between the objects is greater than the kinetic friction. Consider attempting to move a large crate across a concrete floor. The crate might not budge no matter how much you push on it. In other words, the static friction reacts to your actions by increasing to match and move in the opposite direction of your push.

However, if you exert enough force, the crate eventually looks to slip and begin to move. The kinetic friction force is lower than the static friction force, making it simpler to maintain motion once it is underway.

You would have to push more harder to initiate and maintain motion if you added mass to the crate (by, say, stacking a box on top of it). On the other hand, if you greased the concrete, it would be simpler to start and maintain the box.

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A capacitor acts as a low-pass filter to increase damping and temporarily store energy, much like a spring-loaded shock absorber, to reduce vibrations when driving on washboard roads.

A battery with voltage v is connected to a chain of three capacitors in series each with a capacitance of , after a long time has passed each capacitor has a charge of q

Since there is only one channel for the charging current (iC) to take when capacitors are connected in series, the charging current (iC) going through all capacitors is the SAME.

Then, as iT = i1 = i2 = i3 etc., all capacitors connected in series have the same current flowing through them. As a result, regardless of capacitance, each capacitor will store the same quantity of electrical charge, Q, on its plates.

As we know,

Q = C*V

Applying Kirchhoff’s Voltage Law,

V = Qt/C1 + Qt/C2 + Qt/C3

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According to the given statement the initial temperature of the water is 54.171°C

The SI unit of temperature is Kelvin, which is represented by the letter K. Kelvin is part of the International System of Units.

Mass of water

= 2290 g

= 2.29 Kg

Heat absorbed (Q) = 5.11 x 10⁵ J = 511 KJ

Water is boiling, final temperature of water

= 100°C = 373 K

When water is getting warmed, the amount of heat absorbed to increase the temperature of water by 1°C is given by heat capacity.

Specific heat capacity of water

= 4.87 KJ/Kg

Mathematically,

Q = mCΔT

where

Q = Heat absorbed

m= mass of the water

C = specific heat capacity of water

ΔT = Temperature change

= Final temperature - initial temperature

Putting numerical values

511 = 2.29 x 4.87 x ΔT

⇒ΔT = 45.829

⇒Final temperature - Initial temperature = 45.829°C

⇒100°C - Initial temperature = 45.829°C

⇒ Initial temperature = 100 - 45.829 = 54.171°C

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The force applied by the person is 2587.5N. The energy approach is by far and away the easiest. Earlier work equals potential energy (after).

Most issues involving forces and velocities can be solved using energy formulas like Ek = EP or W = Ep or W = Ek.

Always consider using an energy formula first; they frequently work and prevent the need for many steps to solve for one thing before moving on to another. It would take a while to find a solution if you approached it the way you did since you would have to tackle several problems as you went along. You must determine the initial takeoff speed using F = ma the way you did since you would have to tackle several problems as you went along. You must determine the initial takeoff speed using F = ma before utilizing V2f=V2i + 2ad then, given that Vf is zero, get Vi. You would then factor that into the same equation using that as your takeoff speed V2f = V2i + 2ad but this time it would be Vf. Vi would be 0, therefore the answer to the equation would be "a." The energy approach is by far and away the easiest.

Earlier work equals potential energy (after)

Fd = mghF = mgh/dF = (66)(9.81)(0.8)/0.2F= 2587.5N

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When the wave crests of a transverse wave move closer together it means the wavelength is getting smaller.

The wavelength of a transverse wave is the distance from one peak to the next or from one dip to the next. The wavelength gets shorter as the crests or troughs get closer together. The wavelength increases as the distance between the crests and troughs increases.

One way to gauge the size of waves is by their wavelength. It is the separation of two matching waves' neighboring points. In a transverse wave, the medium's particles vibrate up and down perpendicular to the wave's path of propagation. A longitudinal wave's wavelength can be calculated as its length. A crest and a trough make up a transversal. The largest upward displacement is at the crest, while the maximum downward displacement is at the dip.

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Answer:

C. The wavelength is getting smaller.

Explanation:

Since both rats get the tranquilizer and there is no control condition, the experiment is not accurate.

An experiment would be carried out by a scientist in search of data and knowledge. We are aware that in an experiment, the impact of the independent variable on the dependent variable must be determined.

In this instance, the dosage of the medication is the independent variable, and the duration of sleep time for the pet rats is the dependent variable.

Let's notice that a controlled setting is required for every experiment.

We can observe that this experiment lacks a controlled environment, proving that it is not reliable.

A control setting should be introduced, and this experiment would need to be evaluated.

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The tidal force is a gravitational phenomenon that, as a result of a gradient in the gravitational field from the other body, stretches a body along a line towards the center of mass of another body.

The surface gravity of the Moon is around 1/6th as strong, or 1.6 meters per second every second. Because the Moon is significantly less massive than Earth, its surface gravity is weaker. The surface gravity of a body is inversely related to the square of its radius but directly proportional to its mass.

The Earth is forced to orbit around the Earth-Moon center of mass, which is situated roughly 1600 km beneath the surface of the planet along a line connecting it to the Moon. It is possible to think of the tidal force as the difference between the force at the Earth's center and all other locations.

At sea level, where we can see the ocean tides, this distinction is evident. (Remember that the tidal forces' impact on sea level is measured relative to the baseline sea level.

As we previously observed, the rotation of the Earth causes a significant bulge along its equator. Here, we merely take into account the much smaller tidal bulge measured from that baseline sea level, which establishes the baseline sea level.)

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According to the given statement F = -12716 N is the average force exerted on the ball by the bat.

The average force is the force applied by an object traveling over a specific period of time at a given rate of speed, or velocity. This velocity is not immediate or precisely calculated, even as word "average" implies.

m = 220 g = 0.22 kg

v[tex]_1[/tex] = 32.20m/s

v[tex]_2[/tex] = -54.50 m.s

t = 1.5 ms = 1.5 * 10⁻³

To find the average force exerted on the ball.

If we use the impulse-momentum theorem,

F = mv[tex]_2[/tex] - mv[tex]_1[/tex]/t

Now, we have to substitute values in equation 11:

[tex]$F=\frac{0.22 \mathrm{~kg} \cdot\left(-54.5 \frac{\mathrm{m}}{\mathrm{s}}\right)-0.22 \mathrm{~kg} \cdot\left(32.2 \frac{\mathrm{m}}{\mathrm{s}}\right)}{1.5 \cdot 10^{-3} \mathrm{~s}}$[/tex]

F = -12716 N

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The horizontal force superman apply to the boulder is F = 2142.9 N.

The boulder has a weight of

W = 1400 N

The weight of an object is the product between its mass m and the gravitational acceleration g:

W = mg

Rearrange the equation, we can calculate the mass of the boulder:

m = W / g

m =  1400 N / 9.8 m/s

m = 142.86 kg

As we know that Superman applies a horizontal force to this object, and as a result, the acceleration of the boulder is

a = 15 m/s²

We can find the force applied by using Newton's second law of motion:

F = ma

As, now we have m that is 142.86 kg and a is 15 m/s²

So, putting these values in formula we have,

F = 142.86 kg x 15 m/s²

F = 2,142.9 N

Hence, the horizontal force superman apply to the boulder is F = 2142.9 N.

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Answer:

65 meters for 5 seconds at a time

Explanation:

Answer:

reducing water use, recycling water, install basic water-efficient technologies, and reusing water.