3. A nail salon has looked up the melting and boiling point of alcohol (ethyl). This means there's enough energy to change the state of matter. This change where a switches states is known as the

A. freezing point.
B. critical temperature.
C. fusion point.
D. condensation point.

[tex]12.75 \frac{m}{s}[/tex]

Assuming vertical acceleration of [tex]9.81 \frac{m}{s^2}[/tex], the speed after x seconds of falling is [tex]9.81x \to 9.81(1.3) = 12.75[/tex]

Answer:

a)-M2/M1

Explanation:

Momentum is conserved:

M₁ v₁ + M₂ v₂ = 0

M₁ v₁ = -M₂ v₂

v₁ / v₂ = -M₂ / M₁

In the given physical scenario, by adhering to the conservation of momentum, you can find the ratio of the speeds v1/v2 which is represented by -M2/M1.

From the conservation of momentum, we might deduce that the total momentum of a system of particles is constant if there is no resultant external force. Before the explosion, the body was at rest, indicating that its total momentum was zero. After the explosion, the total momentum should still be zero. Hence, the momentum of M1 moving at speed v1 should be equal but opposite to the momentum of M2 moving at speed v2. This is represented mathematically as M1*v1 = M2*v2. By rearranging this equation, we can find the ratio v1/v2 which equals -M2/M1.

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Answer:

a) 6.46 s

b) 73.0 m

c) 22.6 m/s, 26.7 m/s

Explanation:

The position can be found with constant acceleration equation:

x = x₀ + v₀ t + ½ at²

where x is the final position,

x₀ is the initial position,

v₀ is the initial velocity,

a is the acceleration,

and t is the time.

For John:

x₀ = 0 m

v₀ = 0 m/s

a = 3.50 m/s²

For Peter:

x₀ = 0 m

v₀ = 0 m/s

a = 4.90 m/s²

John's position at time t is:

x = 0 + (0) t + ½ (3.50) t²

x = 1.75 t²

Peter starts 1 second after John.  Peter's position at time t−1 is:

x = 0 + (0) (t−1) + ½ (4.90) (t−1)²

x = 2.45 (t−1)²

When Peter overtakes John, they have the same position:

1.75 t² = 2.45 (t−1)²

1.75 t² = 2.45 (t² − 2t + 1)

1.75 t² = 2.45 t² − 4.90 t + 2.45

0 = 0.70 t² − 4.90 t + 2.45

0 = 2 t² − 14 t + 7

t = [ 14 ± √(169 − 4(2)(7)) ] / 4

t = 0.54, 6.46

Since t > 1, Peter overtakes John 6.46 seconds after the race starts, which means he drives for 5.46 seconds.

The distance Peter travels is:

x = 2.45 (6.46 − 1)²

x = 73.0

Peter travels 73.0 meters.

The speed that John reaches is:

v = (3.50 m/s²) (6.46 s)

v = 22.6 m/s

The speed that Peter reaches is:

v = (4.90 m/s²) (5.46 s)

v = 26.7 m/s

Peter takes 5 seconds to overtake John, travels a distance of 61.25 meters before he catches up, and they have speeds of 24.5 m/s and 21.0 m/s, respectively, at the instant Peter overtakes John.

To solve this physics problem, we use the equations of motion to determine the time it takes for Peter to overtake John, the distance Peter travels before he catches John, and the speeds of both cars at the instant Peter overtakes John. Since both Peter and John start from rest, their initial velocities (v0) are 0 m/s. Peter accelerates at 4.90 m/s2, while John accelerates at 3.50 m/s2. John starts 1 second before Peter.

Solution:

Therefore, Peter takes 5 seconds to overtake John, travels a distance of 61.25 meters before he catches up, and they have speeds of 24.5 m/s and 21.0 m/s, respectively, at the instant Peter overtakes John.

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Answer:

C) 473 K

Explanation:

The conversion from Celsius to Kelvin is:

K = C + 273.15

So if the temperature is 200 °C:

K = 200 + 273.15

K = 473.15

Which is approximately answer C.

The absolute temperature corresponding to 200°C is 473 K. This is calculated by adding 273.15 to the Celsius (in accordance to the Celsius-Kelvin conversion formula) and rounding to the nearest whole number.

The absolute temperature measurement is typically done in Kelvin (K), which is the temperature scale used in science because it is an absolute temperature scale. Zero degrees on the Kelvin scale, known as absolute zero, is theoretically the point at which molecular motion ceases, producing no thermal energy. A useful thing about the Kelvin scale is that it corresponds directly with the Celsius temperature scale, with a linear shift of 273.15 degrees. In other words, if you want to convert from Celsius to Kelvin, you simply add 273.15 to the Celsius temperature.

In the case of the given temperature of 200 degrees Celsius, the conversion to Kelvin would be 200 + 273.15 = 473.15 K.

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False. Acceleration is not the magnitude of average velocity.

Acceleration  is the rate at which an object's velocity changes over time. It is a vector quantity and is defined as the change in velocity divided by the change in time.

Mathematically the formula for acceleration is given as;

a = Δv / Δt

where;

Average velocity, on the other hand, is the displacement of an object divided by the time taken. It is also a vector quantity and is defined as the change in position divided by the change in time.

Thus, we can conclude that acceleration is not the magnitude of average velocity.

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The complete question is below:

Acceleration is the magnitude of average velocity.​ True/False?

Acceleration is not the magnitude of average velocity but is the rate at which velocity changes in terms of magnitude or direction. Calculated by dividing the change in velocity by the time interval, it is a vector with its own SI unit of m/s². Average acceleration differs from instantaneous acceleration and can be positive, negative, or zero.

The statement 'Acceleration is the magnitude of average velocity' is incorrect. Instead, acceleration is defined as a change in velocity, which can be in terms of magnitude or direction, or both. When you have a change in velocity (∆v) over a time interval (∆t), the average acceleration (αavg) is calculated. This is expressed as α = ∆v/∆t. The SI units for acceleration are meters per second squared (m/s²).

Acceleration is always a vector, meaning it has both magnitude and direction. It is important to note that acceleration does not just involve an increase in speed; it includes any change in velocity, including reduction in speed (deceleration) and changes in direction. Average acceleration differs from instantaneous acceleration, which is the rate of change of velocity at a specific point in time. To understand average acceleration, one should consider the total change in velocity and the total time over which this change occurred, without needing to know every single instantaneous rate of change.

Answer:

heat is not absorbed by the system

A rapid shift occurs between gas compression and expansion.

All heat is transformed to work done by the system.

Explanation:

Adiabatic processes involve no heat transfer to or from the system, often due to the insulation or speed of the process. Temperature decreases during expansion because internal energy does work, and increases during compression as work is done on the system. So the correct options are second, third, and fourth statements.

An adiabatic process describes a thermodynamic change in which no heat is transferred into or out of the system. This can mean that the system is well insulated or that the process happens so quickly there's no time for heat transfer. During adiabatic expansion of a gas, the temperature decreases because internal energy is converted to work done by the system, and in adiabatic compression, the temperature increases because work is done on the system, increasing its internal energy.

All heat being transformed to work done by the system can be a characteristic of an adiabatic process, particularly in the case of an ideal adiabatic process where no heat is exchanged and all energy changes in the system are due to work.

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Answer:

[tex]\begin{array}{l|l}\text{Speed}\; \mathrm{(m\cdot s^{-1})} & \text{Minimum Height\;(m)}\\\cline{1-2}\\[-1em] 2 & 0.204\\3&0.459\\4 & 0.815\\5 & 1.27 \\6 & 1.83\end{array}[/tex].

Assumptions:

Explanation:

Consider the "SUVAT" equation

[tex]\displaystyle \frac{v^{2} - u^{2}}{2a} = x[/tex],

where

For example, if the bottle needs to achieve a speed of [tex]v = \rm 2\; m\cdot s^{-1}[/tex] by the time it reaches the ground,

Apply the previous equation to find the minimum height, [tex]x[/tex]:

[tex]\displaystyle x = \frac{v^{2} - u^{2}}{2a} = \rm \frac{\left(2\; m\cdot s^{-1}\right)^{2}}{2\times 9.81\; m\cdot s^{-2}} \approx 0.204\; m[/tex].

Replace the [tex]v[/tex] value and apply the formula to find the minimum height required to reach different final speeds.

Answer:

0.20

0.46

0.82

1.28

1.84

Explanation:

To achieve a speed of 2,3,4,5,6 m/s, the bottle must be

Answer: B

Explanation:

Answer:B

Explanation:

Answer:

D) the frictional force between the bike and sidewalk stays the same because speed does not affect frictional force

Explanation:

Friction force is equal to normal force times the coefficient of friction.  Since neither of those changes as speed increases, then the friction force stays the same.

Answer:

B. The atom gains 1 electron, to make a total of 18 electrons.

Explanation:

Chlorine is the 17th element in the periodic table, so it has atomic number 17:

Z = 17

This means that a neutral atom of chlorine has 17 protons and 17 electrons.

When a chlorine atom gains 1 electron, its electric charge (initially zero) becomes -1, since the electron has negative charge of -1 (in elemntary charge units). This also means that the number of electrons in the ion is now

17 + 1 = 18

So the correct answer is

B. The atom gains 1 electron, to make a total of 18 electrons

Answer:

the answer is c

Explanation:

mechanical waves must travel through a medium but electromagnetic waves do not have to

The frictional force between two sliding objects is given by:

F = μN

μ is the coefficient of kinetic friction, N is the normal force one object exerts on the other.

These are the two factors that influence the frictional force, the coefficient of friction and the normal force that the objects exert on each other.

The strength of the force of friction between two sliding objects is determined by the type of surfaces in contact and the normal force.

The strength of the force of friction between two sliding objects is determined by two factors:

For example, if two objects with rough surfaces are in contact and the normal force between them is large, the frictional force will be strong. Conversely, if the surfaces are smooth and the normal force is small, the frictional force will be weak.

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Answer:

B. 0.1 meters/second/second in the same direction of travel.

Explanation:

Acceleration is the rate of change of velocity. Acceleration is a vector quantity.

a=Δv/Δt

=(v₂-v₁)/(t₂-t₁)

v₁=4 m/s

v₂=6 m/s

t₁=0 s

t₂=20 s

a=(6m/s-4m/s)/(20s-0)

= 0.1 m/s² in the same direction of travel.

Therefore acceleration =0.1 meters/second/second in the same direction of travel.

The acceleration of runner is [tex]\bold{0.1 \ m / s^{2}}[/tex] if his initial velocity is 4 m⁄s and after 20 seconds the runner's velocity is 6 m⁄s.

Option: B

From given we came to know that the runner starts his initial velocity is 4  , and in 20 s speeds up to 6 m⁄s, to find acceleration of runner, we know that acceleration is ratio of change in velocity to change in time.

The acceleration is given by the formula:

[tex]\text { Acceleration }=\frac{\text { Change in velocity }}{\text { Change in time }}[/tex]

We know that change in velocity as 4 m/s to 6 m/s and change time as 20 s.

[tex]\Rightarrow \text { Acceleration }=\frac{6-4}{20}[/tex]

[tex]\therefore \text { Acceleration }=0.1 \ \mathrm{m} / \mathrm{s}^{2}[/tex]

Therefore, acceleration of runner will be [tex]0.1 \ m / s^{2}[/tex]

Answer:

Sleeping, since your brain is working, but your physical body is not moving at all or moving rarely, therefore there is no work done in the activity of sleeping.

Explanation:

Answer:

a. the brick's volume was 0.96 liters.

Explanation:

A brick is denser than water, so it sinks.  So the volume of water the brick displaces is equal to the brick's total volume.

Volume is a three-dimensional scalar quantity. The water displaced by the brick had a volume of 0.96 liters, which tells that the brick's volume was 0.96 liters. The correct option is A.

A volume is a scalar number that expresses the amount of three-dimensional space enclosed by a closed surface.

As it is known that volume occupies space, now, if the brick is put in water and it takes the place of water, therefore, the volume of the brick will be the same as the volume displaced by it.

Hence, The water displaced by the brick had a volume of 0.96 liters, which tells that the brick's volume was 0.96 liters.

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An emitter allows things to pass through a surface from inside to outside.

An absorber allows something to pass through it from the outside to the inside.

Answer/Explanation:

Shiny surfaces are poor absorbers and emitters (but they are good reflectors of infrared radiation). If two objects made from the same material have identical volumes, a thin, flat object will radiate heat energy faster than a fat object. This is one reason why domestic radiators are thin and flat.

Answer:

C. Recheck the numbers of each atom on each side of the equation

to make sure the sides are equal.

D. Choose coefficients that will balance the equation

Explanation:

In balancing of chemical equation, the number of atoms on both sides must be equal in adherence to the law of conservation of mass.

Using the method of inspection, the equation is first observed to know the relationship between the combining atoms and the resulting ones.

After observing the reaction, put a coefficient that will balance the equation. Then recheck the number of each atom on both side of the equation. One can repeat the process till the equation is balanced.

The steps of balancing a chemical equation include rechecking the numbers of each atom and choosing coefficients that will balance the equation. Options A and B are not part of the balancing process.

To balance a chemical equation, you normally adhere to a few critical steps. These do not include options A and B. You should not multiply reactants to get products, and you shouldn't change subscripts, which would alter the nature of the substances involved. You should,

Balancing chemical equations aims to observe the law of conservation of mass, which states that matter can neither be created nor destroyed.

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Explanation:

According to Newton's third law of motion, when two bodies interact between them, appear equal forces and opposite senses in each of them.

To understand it better:

Each time a body or object exerts a force on a second body or object, it (the second body) will exert a force of equal magnitude and direction but in the opposite direction on the first.

So, if the rich man had pushed the bag of money horizontally opposite of where he was, he could have saved himself.

Answer:

The type of wire

Explanation:

E=Blv

Answer:

The type of wire

Explanation:

The EMF is induced in the closed conducting loop whenever there is a change in the magnetic flux linked with it. Mathematically, it is given by :

[tex]\epsilon=\dfrac{-d\phi}{dt}[/tex]

Where

[tex]\phi[/tex] is the magnetic flux

[tex]\phi=B.A[/tex]          

[tex]\epsilon=\dfrac{-d(BA)}{dt}[/tex]

For n number of coils,

[tex]\epsilon=\dfrac{-d(NBA)}{dt}[/tex]

Where

B is the magnetic field

A is the area of the coil

If the coil is moved with the speed of v in the magnetic field, then induced EMF is given by :

[tex]\epsilon=Blv[/tex]

l is the length of the coil

So, the induced EMF depends on the following factors:

So, the type of wire do not change the induced emf of the coil. Hence, the correct option is (b).

Answer:

Unknown

Explanation:

Because we cannot observe space beyond the edge of the observable universe, it is unknown whether the size of the Universe in its totality is finite or infinite.

The given statement is true, that is, the universe is endless due to the fact that it is not limited with a specified boundary.

Explanation:

Universe has unimaginable length and width due to the limit of the present day science and technological adaptation because of which we haven’t explored the full universe yet. The world in which we live is the Earth which has been cartographed and studied well along with the Milky Way galaxies.  

But beyond this, there are thousands and millions of galaxies which has not been studied. Then there is a frame of reference of study with the dimensional frame where we have been adept to 3 dimensions only and the [tex]4^{th}[/tex] dimension is yet to be studied.

Answer:

83%

Explanation:

On the surface, the weight is:

W = GMm / R²

where G is the gravitational constant, M is the mass of the Earth, m is the mass of the shuttle, and R is the radius of the Earth.

In orbit, the weight is:

w = GMm / (R+h)²

where h is the height of the shuttle above the surface of the Earth.

The ratio is:

w/W = R² / (R+h)²

w/W = (R / (R+h))²

Given that R = 6.4×10⁶ m and h = 6.3×10⁵ m:

w/W = (6.4×10⁶ / 7.03×10⁶)²

w/W = 0.83

The shuttle in orbit retains 83% of its weight on Earth.

The correct option is c) 83%.

Given :

A shuttle on Earth has a mass of [tex]4.5\times 10^5[/tex] kg.

Shuttle is at height of [tex]6.3\times 10^5[/tex] meters above the surface of the Earth.

Solution :

On the surface of Earth, the weight is

[tex]\rm W = \dfrac{GMm}{R^2}[/tex]  ---- (1)

Where,

G is the gravitational constant,

M is the mass of the Earth,

m is the mass of the shuttle,

R is the radius of the Earth.

In orbit the weight is,

[tex]\rm w = \dfrac{GMm}{(R+h)^2}[/tex]  ----- (2)

Now we take the ratio of equation (2) to (1),

[tex]\rm \dfrac{w}{W}= \dfrac{R^2}{(R+h)^2}[/tex]   ----- (3)

Now put the values of R and h in equation (3) we get,

[tex]\rm \dfrac{w}{W} = 0.83[/tex]

= 83%

Therefore, the correct option is c) 83%

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Answer:

Zero

Explanation:

The work done by a force on an object is given by:

[tex]W=Fd cos \theta[/tex]

where

F is the magnitude of the force

d is the displacement of the object

[tex]\theta[/tex] is the angle between the direction of the force and the displacement of the object

In this situation, the force is the force of gravity acting on the satellite. This force always points towards the centre of the trajectory, so it is always perpendicular to the direction of motion of the satellite (since the orbit is circular), so [tex]\theta=90^{\circ}[/tex] and [tex]cos \theta =0[/tex]. Therefore, the work done by gravity is also zero.

Answer:

zero

Explanation:

on edg.

same

the size of image is the same with object in reflection

Answer: the size of the image will be the same as the object.

Explanation: image formed by plane mirror is:

1. Same size as the object

2. Laterally inverted

3. Form behind the mirror

4. Virtual

5. Same distance as the object from the mirror

if it is a displacement time graph, It will increase upwards in a straight line.

If it is a velocity time graph it will remain as a straight horizontal line

If it is an acceleration time graph there will be a horizontal straight line at 0

This is kind of an awkward situation.

A, B, and C are definitely false:

A ... gasoline is not a renewable resource

B ... hydroelectric dams don't use wind for anything; windmills do

C ... fossil fuels are not renewable resources

So that leaves D, but D is partly absurd too.

Natural gas burning does not produce gases to turn the turbines.  Natural gas is burned to produce HEAT, just like on the stove in my kitchen.  The heat is used to boil water, and the steam from the boiling water is what turns the turbines to generate electrical energy.

But I guess you gotta pick  choice-D  as the answer.  

The answer is D. Natural gas can be burned, producing hot gases that turn turbines to generate electricity.

Answer:

C. 27.5 N

Explanation:

F = ma is the equation given to you, in which:

F = force

m = mass = 3.4 kg

a = acceleration = 8.1 m/s

Plug in the corresponding numbers to the corresponding variables:

F = (3.4)(8.1)

F = 27.54

C. 27.5 N is your closest answer when rounded to the nearest tenths.

~

Answer:

C. 27.5 N

Explanation:

The force on an  object that has a mass of 3.4 kg and an acceleration of 8.1 m/s is 27.5 N.

F = (3.4)(8.1)

F = 27.54

Answer:

365 m/s

Explanation:

The velocity of sound in air is approximated as:

v ≈ 331.4 + 0.6 T

where v is the velocity in m/s and T is the temperature in Celsius.

At T = 56:

v ≈ 331.4 + 0.6 (56)

v ≈ 365.0

The velocity is approximately 365 m/s.

Final answer:

The speed of sound in air at 56°C is approximately 364.6 m/s, calculated using the temperature-dependent formula for the speed of sound.

Explanation:

The speed of sound in the air increases as the temperature rises. At 0°C, the speed of sound is about 331 m/s. The speed of sound can be approximated using the formula:

v = v0 + (0.6 × t)

Where:

At a temperature of 56°C, the speed of sound can be calculated as follows:

v = 331 m/s + (0.6 m/s/°C × 56°C)

v = 331 m/s + 33.6 m/s

v = 364.6 m/s

Thus, the speed of sound in air at 56°C is approximately 364.6 m/s.

Answer:

C. when the distance between them becomes extremely large

Explanation:

The gravitational force between two masses is:

F = GMm / r²

where G is the universal constant of gravitation,

M and m are the masses of the objects,

and r is the distance between the objects.

As r grows very large, F grows very small.

Answer:

v

Explanation:

Mechanical weathering is the physical breakdown of rock by environmental factors. This process is always at work, and there are a number of different types of mechanical weathering. Thermal expansion is the tendency for minerals to expand and contract based on temperature.

Answer:Mechanical weathering is actually breaking down of rocks into smaller pieces by natural forces. Any weathering processes that can cause the physical breakdown of rocks without any type of change in the chemical composition of rocks, called mechanical weathering.

Exfoliation: It's a process where the rocks erodes by peeling off in sheets or layer by layer rather than grain by grain.

Explanation:therefore exfoliation will match the answer to your question