drag each tile to the correct box. identify the type of scientific knowledge represented by each statement. law theory hypothesis if a certain piece of metal is cooled, it will conduct electricity better. arrowright the amount of electric current that passes through a conductor is directly proportional to the voltage and is described by the formula v
If a certain piece of metal is cooled, it will conduct electricity better, this statement is theory whereas, the amount of electric current that passes through a conductor is directly proportional to the voltage is known as law.
What is hypothesis, theory and law?A hypothesis is a statement that may be true or false. A theory is a well-supported explanation of observations or data. A scientific law is a statement that explains the relationship between variables. Hypothesis is a statement that is given before performing an experiment. It can be true or false after we perform an experiment. When a number of experiments can be performed and the hypothesis comes out true then theory is evolved. When the statement is verified after performing large number of experiments, it becomes a law.
So we can conclude that if a certain piece of metal is cooled, it will conduct electricity better, this statement is theory whereas, the amount of electric current that passes through a conductor is directly proportional to the voltage is known as law.
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A driver travels northbound on a highway at a speed of 25.0v m/s. A police car, traveling southbound at a speed of 40.0 m/s , approaches with its siren producing sound at a frequency of 2500 Hz. . (b) What frequency does the driver detect after the police car passes him?
The frequency that the driver detects after the police car passes him is 2.08 kHz.
What do you mean by the frequency?The quantity of waves that pass a set location in a predetermined period of time is known as frequency. Therefore, if a wave passes through in half a second, the frequency is 2 per second. The frequency is 100 per hour if it takes 1/100 of an hour. Frequency is typically expressed in hertz units, which were created in honor of German physicist Heinrich Rudolf Hertz in the 19th century. The frequency, abbreviated as Hz, refers to the number of waves that move across a space in a second. An "A" note on a violin string, for instance, vibrates at roughly 440 Hz (440 vibrations per second).
frequency = 1/T
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help me with this assignemt please
how long will it take the bird to cover a ground distance of 550 km from north to south? (note that even on cloudy nights, many birds can navigate using the earth's magnetic field to fix the north-south direction.)
The direction of the bird's velocity can be adjusted so that the wind and the resulting bird velocity will both be in the southerly direction.
(a) The bird should fly at an angle of roughly South 23.58° East if it wants to move directly southward in relation to the earth.
(b) The bird would need around 5.46 hours to fly 500 kilometres from North to South.
The components of the velocity are v(x) and v(y).
The magnitude of the velocity of the bird is 100 km/h
The orientation of the bird corresponds to that of North and South.
The magnitude of the velocity of the wind is 40 km/h
East-west is the direction of the wind.
(a) The component vector of the two velocities are;
The velocity of the bird, v(y) = -100(j)
The velocity of wind, v(x) = 40(i)
If the bird has a component of velocity to accommodate the wind velocity, the direction of its movement will be southerly.
Let θ be the angle of the direction of the bird relative to the negative x-axis, therefore:
-100(j) × cos(θ) = -40·i
θ = cos⁻¹(40/100)
θ ≈ 66.42° in the third quadrat, given that both the y, and x, values are negative.
In the South-West direction, the angle is:
90 - 66.42 ≈ 23.58°
Therefore, to fly directly southward relative to the ground, the bird should fly in the direction of south 23.58° east.
(b) The following is given as the component of the bird's southerly velocity when traveling in the new direction:
v(s) = 100 × sin(θ)
Hence,
Southward velocity, v(s) = 100 × sin(66.42°)
The time t it takes to travel 500 km, is given as:
d = v(s)t
500 = 100 × sin(66.42°)(t)
t = 5.46 hrs
The bird would need 5.46 hours to fly 500 kilometres from North to South.
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The complete question is mentioned below:
Canada geese migrate essentially along a north–south direction for well over a thousand kilometres in some cases, traveling at speeds up to about 100 km/h. If one goose is flying at 100 km/h relative to the air but a 40-km/h wind is blowing from west to east,
(a) at what angle relative to the north–south direction should this bird head to travel directly southward relative to the ground?
(b) How long will it take the goose to cover a ground distance of 500 km from north to south? (Even on cloudy nights, many birds can navigate by using the earth’s magnetic field to fix the north–south direction.)
An ion rocket engine produces 1 newton of thrust. What acceleration can it give to a space probe with a mass of 1000kg?.
The ion rocket engine give an acceleration to the space probe of: 0.001 m/s²
To solve this exercise, the formula and procedure to be applied is:
F = m * a
Where:
m = massF = Forcea = accelerationInformation about the problem:
F= 1 N1 N = kg * m/s²m = 1000kga= ?Applying the force formula and isolating the acceleration, we get:
F = m * a
a = F/m
a = 1 N /1000kg
a = 1 kg * m/s² / 1000kg
a = 0.001 m/s²
What is force?It is the physical magnitude that expresses the effort necessary to move the mass of one kilogram with an acceleration of one meter per second squared, this is expressed in units of the international system in Newton.
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Balboa Park in San Diego has an outdoor organ. When the air temperature increases, the fundamental frequency of one of the organ pipes (a) stays the same, (b) goes down, (c) goes up, or (d) is impossible to determine.
(c) The fundamental frequency of one of the organ pipes will go up or increase.
When pressured air is forced into an organ pipe, it echoes at a particular pitch, generating the sound of the pipe organ. Each pipe has been adjusted to a particular pitch on the musical scale.
An outdoor pipe organ is a type of musical instrument used to perform music. It sounds quite serene and produces some calming tones.
The organ pipe produces the sound of the outdoor organ. The wavelength of the sound is also dependent on the length of the pipe. The fundamental frequency of one of the organ pipes will grow as the speed of the sound increases as the ambient air temperature rises.
The correct option is (c).
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A fireworks shell is accelerated from rest to a velocity of 65.0 m/s over a distance of 0.250 m. (a) How long did the acceleration last? (b) Calculate the acceleration.
The acceleration lasts 0.0077 seconds and is equivalent to 8450 m/s².
The rate at which an object's position changes with respect to time is defined as velocity.
Because it consist of both magnitude and direction, it is a vector quantity. Speed is a scalar quantity that represents the magnitude of velocity. The SI unit of velocity and speed is m/s.
Acceleration is the measure of how quickly a velocity varies over time. It is also a vector quantity. A negative sign of acceleration indicates that the velocity of the body is decreasing with time.
Given in the question
Initial speed = u = 0 m/s ( as the firework starts from rest)
Final velocity = v = 65 m/s
Distance traveled = 0.25 m
B) Acceleration
Using the third equation of motion,
[tex]v^{2} -u^{2} =2as[/tex]
Put in the value, we get
(65)² - (0)² = 2a(0.250)
0.5a = 4225
a = 8450 m/s²
As a result, fireworks accelerate at 8450 m/s².
A) Time the acceleration lasts
Acceleration is calculated as (Final Velocity - Initial Velocity)/Time.
Put in the values, we get
8450 = 65/time
Time = 65/8450
Time = 0.0077 seconds
Hence, the acceleration lasts for 0.0077 seconds and is 8450 m/s².
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Name:
9. A ball is thrown vertically in the air from rest and soars for 4.2 seconds.
If the acceleration due to gravity is 9.8 m/s², what is the final velocity
of the ball when it is caught?
The final velocity of the ball when it is caught is 20.58 m/s
What is velocity?Velocity is the rate of change of displacement.
To calculate the final velocity of the ball when it is caught, we use the formula below.
Formula:
v = u+gt............ Equation 1Where:
v = Final velocityu = Initial velocityg = Acceleration due to gravityt = TimeFrom the question,
Given:
u = 0 m/sg = 9.8 m/s²t = 4.2/2 = 2.1sSUbstitute these values into equation 1
v = 0+9.8×2.1v = 20.58 m/sHence, the final velocity of the ball when it is caught is 20.58 m/s
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point charges of 10.8 nc and 51.9 nc are placed 0.500 m apart. what is the electric field halfway between them? indicate direction by a positive or a negative value. keep in mind that a positive vector is one directed to the right and a negative vector is one directed to the left. your answer should be a positive or a negative number with two decimal places, do not include the unit. hint: 1 nc
Net electric field in middle of two charge is equal to 7,318.4 NC⁻.
Electric field at a point by an point electric charge is given by:
E=KQ/r²
where,
E is electric field
K is an constant with value 9×10⁹
Q is point electric charge
r is the distance at which E is desired
for 10.8 nC
electric field at +0.25 m is as
E=+155.2NC⁻
for 51.9nC
electric field at -0.25 m is as
E= - 7473.6NC⁻
therefore net electric field in middle of two charge
=(+155.2- 7473.6)
= -7318.4NC⁻
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PLEASE HELP!!!!!! If an index fossil is never found below a key bed what can you infer from this information?
Answer:
index fossil, any animal or plant preserved in the rock record of the Earth that is characteristic of a particular span of geologic time or environment. A useful index fossil must be distinctive or easily recognizable, abundant, and have a wide geographic distribution and a short range through time. Index fossils are the basis for defining boundaries in the geologic time scale and for the correlation of strata. In marine strata, index fossils that are commonly used include the single-celled Protista with hard body parts and larger forms such as ammonoids. In terrestrial sediments of the Cenozoic Era, which began about 65.5 million years ago, mammals are widely used to date deposits. All of these animal forms have hard body parts, such as shells, bones, and teeth, and evolved rapidly.
Explanation:
A train slows down as it pulls into a station. If the train is moving from your left to your right, what are the directions of the vectors for velocity and acceleration?.
The directions of the vectors for velocity and acceleration will be [b] the velocity vector points to the right and the acceleration vector points to the left.
How to explain the velocity?The velocity vector is always pointing in the direction that the object is moving. Therefore, from our vantage point, the direction of velocity is to the right.
When an object experiences positive acceleration, the acceleration vector points in the object's motion direction.
When an object experiences a negative acceleration, the acceleration vector is in the opposite direction as the object's velocity. Therefore, from our vantage point, the direction of velocity is to the left.
The rate at which an object's position changes is called its velocity vector. The rate at which an object's velocity changes is called its acceleration vector.
As a result, the vectors for acceleration and velocity point in opposite directions.
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A train slows down as it pulls into a station, if the train is moving from your left to your right, what are the directions of the vectors for velocity and acceleration?
[a] the velocity points to the left and the acceleration vector also points to the left
[b] the velocity vector points to the right and the acceleration vector points to the left
[c] the velocity vector points to the left and the acceleration vector points to the right
[d] the velocity vector points to the right and the acceleration vector also points to the right
a wheel with a radius of 45.0 cm rolls without slipping along a horizontal floor (fig. 3-37). at time t 1 the dot p painted on the rim of the wheel is at the point of contact between the wheel and the floor. at a later time t 2 the wheels has rolled through one-half of a revolution. what are (a) the magnitude and (b) the angle (relative to the floor) of the displacement of p?
The magnitude is 167.6cm and the angle (relative to the floor) of the displacement of p is 32.5 degree.
What is displacement ?
A displacement is a vector in geometry and mechanics that has a length equal to the shortest distance between a point P's initial and final positions. It calculates the length and angle of the net motion, or total motion, in a straight line from the starting point to the destination of the point trajectory. The translation that links the starting point and the ending point can be used to spot a displacement.
A point's ultimate location in relation to its original position, or a displacement, can also be defined as a relative position. The instantaneous velocity of an object is the rate at which the displacement changes as a function of time when studying motions of objects throughout time.
Explanation:
a)
height = 2*r =2*45 cm = 90 cm
y = 1/2 * circumference
=1/2 * 2*pi*r
= pi*r
= pi*45
= 141.4 cm
displacement =sqrt ( height^2 + y^2)
= sqrt (90^2 + 141.4^2)
= 167.6 cm
Answer: 167.6 cm
b)
angle ,x = atan (height/y)
= atan (90/141.4)
= 32.5 degree
Answer: 32.5 degree
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Please identify what is the force indicated at the “X” and what would happen if “X” is greater than the pushing force in the diagram? Make sure to include (Quote and define the force at “X”)
Answer:
X is frictional force
Explanation:
when X is greater than pushing force,the object won't move
The correct answer for the nature of force at "X" is frictional force.
What is friction force?
Friction or frictional force is the force that acts when two surface comes in contact with each other. When a body A is resting upon a body B, The force that helps the body to maintain the equilibrium position is static friction.
Kinetic friction slows down a moving object, when their is relative motion between two objects. It always acts in apposite direction to the force applied.
It is denoted by [tex]F[/tex].
The formula to calculate static friction is [tex]F = \mu N[/tex]
[tex]\mu_s =[/tex] Co-efficient of static friction
[tex]\mu_k =[/tex] Co-efficient of Kinematic friction.
The Force indicated at "X" is "Kinetic friction", It will slow down the moving object.
When "X" is greater than the moving object, the object will stop moving and will remain at rest.
The Force Indicated at "X" is Frictional force.
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when he returns his hertz rent-a-rocket after one week's cruising in the galaxy, spock is shocked to be billed for three weeks' rental. assuming that he traveled straight out and then straight back, always at the same speed, how fast was he traveling?
Mr. spoke is travelling with speed v = 9.4c.
Mr. spoke is apparently unknowing of theory of special relativity by Einstein. The theory states that moving clock tick slower than stationery clock.
Time elapse =∆t = 3 weeks
(In earth stationery frame)
Time ellipse= ∆t' = 1 week
(In the frame of rocket)
∆t' = ∆t'/γ
1/y² = 1 - v²/c²
∆t'²/∆t² =
=1²/3²
=1/9
c= 3×10⁸m/s
on solving above equation we get :
v = 9.4c
He was spreading around at close to the speed of light.
Experience significant time dilatation.
He is travelling with speed v = 9.4c.
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a man jogs at a speed of 1.5 m/s. his dog waits 2.5 s and then takes off running at a speed of 3.3 m/s to catch the man. how far will they have each traveled when the dog catches up with the man?
By the velocity, they will travel 6.875 m and the dog catches the man at 2.08s.
We need to know about velocity to solve this problem. Velocity can be determined as the distance traveled divided by time interval. It can be written as
v = s / t
where v is velocity, s is distance and t is the time interval.
From the question above, we know that.
v man = 1.5 m/s
v dog = 3.3 m/s
to = 2.5s
Determine the distance traveled by man when the dog waits
so = vman . to
so = 1.5 x 2.5 = 3.75 m
Find the man's total distance
total distance = distance after dog run + distance when the dog waits
total distance = vman . t + 3.75
We know that the total distance by man's will be caught by the dog, Thus
total distance = vman . t + 3.75
v dog . t = 1.5t + 3.75
3.3t = 1.5t + 3.75
1.8t = 3.75
t = 2.08 s
Find total distance
total distance = vdog . t
total distance = 3.3 x 2.08
total distance = 6.875 m
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PLEASE HELP ME!
as your friend skateboards down a hill, you measure their velocity at 1.0-second intervals. you record the following data: (0.0 s, 0.0m/s), (1.0 s, 2.3 m/s), (2.0 s, 4.6 m/s). Determine your friends acceleration.
Answer:
Explanation:
it should be 3.2 m/s^2
The acceleration is 3.2 m/ s2. Acceleration is change in velocity per time.
What is acceleration?Any procedure where the velocity varies is referred to as acceleration. There are only two ways to accelerate: changing your speed or changing your direction, or changing both. This is because velocity is both a speed and a direction.
A moving object can occasionally alter its velocity by the same amount every second. The data table above depicts an item altering its velocity by 10 m/s every second, as was described in the paragraph above. Since the velocity is changing by a fixed amount every second, this is known as a constant acceleration.
Therefore, The acceleration is 3.2 m/ s2. Acceleration is change in velocity per time.
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hich of the following statements would be accepted as a valid criticism of the big bang theory in scientific circles? a. it cannot be tested directly. b. it is merely an educated guess. c. it fails to state the original cause. d. it is supported by large amounts of evidence.
c. it fails to state the original cause
As we all know as we know the universe is created billion years ago when a small fire ball that exploded.
Big Bang theory is discovered by the George Lemaitre.
It is the explanation "how the universe began."
It states that universe starts from a tiny point then expanded to grow more larger and it is still expanding.
Big Bang Theory cannot explain Galaxy formation. It cannot solve the problem of universe of origination because it didn't tell where the singular point of Big Bang came.
c. it fails to state the original cause
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A proton having an initial velvocity of 20.0i Mm/s enters a uniform magnetic field of magnitude 0.300 T with a direction perpendicular to the proton's velocity. It leaves the field-filled region with velocity -20.0j Mm/s. Determine(b) the radius of curvature of the proton's path while in the field.
The radius of curvature of the proton's path while in the field is [tex]66.67[/tex] × [tex]10^{-2}[/tex].
b) Let R = radius curvature of protons path. Then,
relation b/w B, R, and v is: -
[tex]B = mv/eR\\R=mv/eB[/tex]
[tex]R=\frac{1.6*10^{-27} * 20*10^{6}}{1.6*10^{-19}*0.3 }[/tex]
[tex]R =66.67[/tex]× [tex]10^{-2}[/tex]
Hence, the radius of curvature of the proton's path while in the field is [tex]66.67[/tex] × [tex]10^{-2}[/tex].
What do you mean by Magnetic field?The magnetic influence on moving electric charges, electric currents and magnetic materials is described by a magnetic field, which is a vector field. A force perpendicular to the charge's own velocity and the magnetic field acts on it when the charge is travelling through a magnetic field. The magnetic field of a permanent magnet pulls on ferromagnetic substances like iron and attracts or repels other magnets. A magnetic field that varies with location will also exert a force on a variety of non-magnetic materials by changing the velocity of those particles' outer electrons. Electric currents, like those utilized in electromagnets, and electric fields that change in time produce magnetic fields that surround magnetized things.
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What is ohms law and how do we calculate it
ohm's law is a formula used to calculate the relationship between voltage, current, and resistance in an electrical circuit. To students of electronics, ohm's law (e =ir) is as fundamentally important as einstein's relativity equation ( e= mc2) is to physicists. e = l x r. rest is on Goo gle
what happens to the average kinetic energy of a gas when the particles of the gas collide against each other at a constant temperature and volume? (5 points)
When gas particles contact with one another at a fixed temperature and volume, the average kinetic energy of the gas remains constant. Given that the temperature stays constant, this is the case. This characteristic gives us some understanding of the kinetic energy of the particles; for example, if the temperature rises, we may predict that the kinetic energy will follow suit. However, this kind of energy does not change if the temperature stays constant.
What is kinetic energy?A particle or an item that is in motion has a sort of energy called kinetic energy. When work, which entails the transfer of energy, is done on an object by applying a net force, that object acquires kinetic energy.
Mass and speed are the two fundamental variables that influence kinetic energy. Why? Because an object's motion is dependent on both its velocity and its mass, though velocity plays a larger role in motion.
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A box is at rest on a ramp at an incline of 22°. The normal force on the box is 538 N.
What is the gravitational force on the box?
The gravitational force on the box is 580N.
How to illustrate the information?It should be noted that the gravitational force acts perpendicularly downwards and the normal force of the box is perpendicular to the slanting ramp. This force we are given 538 N.
The gravitational force is the component of this 538 N.
In this case, Cos22° = 538/Y
Where
y = the gravitational force.
Cos22° = 538/Y
Y× Cos22° = 538
Y = 538/Cos22°
= 580.25
Therefore, the gravitational force on the box is 580N.
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A tennis ball with a speed of 23.7 m/s is
moving perpendicular to a wall. After striking
the wall, the ball rebounds in the opposite
direction with a speed of 15.2865 m/s.
If the ball is in contact with the wall for
0.0145 s, what is the average acceleration of
the ball while it is in contact with the wall?
Take “toward the wall” to be the positive
direction.
Answer in units of m/s
The average acceleration of the ball while it is in contact with the wall is 1634.48 m/s²
Speed of the ball, v = 23.7 m/s
Contact timing of the ball with the wall, t = 0.0145 s
Since, average acceleration of the ball while it is in contact with the wall is being asked, so we can neglect the rebound speed.
So according to the First Equation of Motion which relates the velocity, acceleration and time i.e.
v = u +at
u = 0 as the initial velocity of the ball is zero
v = at
a = [tex]\frac{v}{t}[/tex]
a = [tex]\frac{23.7}{0.0145}[/tex]
a = 1634.48 m/s²
The average acceleration of the ball while it is in contact with the wall will be 1634.48 m/s²
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The measurement of the meter stick
Answer:
It's one meter long and has 100 cm and 39.4 inchs
Explanation:
A large meteoroid enters the Earth's atmosphere at a speed of 20.0 km/s and is not significantly slowed before entering the ocean. (a) What is the Mach angle of the shock wave from the meteoroid in the lower atmosphere?
The shock wave from the meteoroid in the lower atmosphere has a Mach angle of 0.948°.
(a) The meteoroid's speed [tex]v_s=20 \mathrm{~km} / \mathrm{s}[/tex]
[tex]$=20 \times 10^3 \mathrm{~m} / \mathrm{s}$[/tex]
Air sound wave speed [tex]&v=331 \mathrm{~m} / \mathrm{s} \\[/tex]
Speed of the shock wave in Mach [tex]&\qquad \theta=\sin ^{-1}\left(\frac{v}{v_s}\right)[/tex]
[tex]$$\begin{aligned}&=\sin ^{-1}\left(\frac{331 \mathrm{~m} / \mathrm{s}}{20 \times 10^3 \mathrm{~m} / \mathrm{s}}\right) \\&=0.948^{\circ}\end{aligned}$$[/tex]
Hence, 0.948° is the Mach angle of the shock wave from the meteoroid in the lower atmosphere.
What is the speed of the meteoroid?A meteoroid's speed can be loosely broken down into three categories: slow, medium, and fast.
Slow meteors move around the sun at a leisurely pace of about 32 kilometers per second (20 miles per second). Medium-speed meteors travel around the sun at approximately 50 kilometers per second (30 miles per second), while fast meteors zoom past at over 120 kilometers per second (75 miles per second)!To learn more about meteoroid, visit:
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ind the frequency at which gain is maximized for the forced damped harmonic oscillator with equation
the frequency at which gain is maximized for the forced damped harmonic oscillator is ωr .when 0<b<2mω
ωr is the frequency at which gain is maximum.
oscillator is a device that work on the principle of oscillation.
harmonic oscillator - It is a periodic rotation about the main position. That shifts to and fro.
Damped harmonic oscillator - It is a vibrating system for amplitude of vibration decreases over a time.
equation of damped harmonic oscillator.
[tex]\frac{d^{2}x}{dt^{2}} +2k\frac{dx}{dt} + \omega^{2} x = 0[/tex]
ω is the angular frequency
k is resistance coefficient
when 0<b<2mω
ωr is the frequency at which gain is maximum.
the frequency at which gain is maximized for the forced damped harmonic oscillator is ωr
The question is incomplete.
ind the frequency at which gain is maximized for the forced damped harmonic oscillator with equation
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A wire carrying a current I is bent into the shape of an equilateral triangle of side L. (b) At a point halfway between the center and any vertex, is the field stronger or weaker than at the center? Give a qualitative argument for your answer.
At a point halfway between the center and any vertex, the field is stronger.
An equilateral triangle with side L is formed by the bend of a wire carrying a current I.
The magnetic field created by a straight wire is given as:
[tex]B = \frac{ \mu_{0} I}{2 \pi a}[/tex]
The cosines of the complementary angles are identical to the sines of the angles that appear in that equation.
For the distance "a" from the wire to the field point,
We obtain:
[tex]tan{~}30^{\circ} = \frac{a}{L/2}\\a = 0.2887L[/tex]
We have one whole side of the triangle that generates a magnetic field at the center of the triangle is [tex](\frac{ \mu_{0} I(1.732)}{4 \pi a} )[/tex].
Now, the near side of a triangle will be at a geometrically equivalent location and will be half as far from point P(b).
Then the field at P(b) is:
[tex](\frac{ \mu_{0} I(1.732)}{4 \pi a} )= \frac{2 \mu_{0} I (1.732)}{4 \pi a}[/tex]
A P(b) field is created by the two half-sides that are cross-hatched which is:
[tex]2(\frac{2 \mu_{0} I(1.732)}{4 \pi a} )= \frac{4 \mu_{0} I (1.732)}{4 \pi (0.2887L)}=\frac{6 \mu_{0} I}{ \pi L}[/tex]
We already have evidence that the field at P(b) is stronger because the remaining triangle will contribute a little bit more field in the same direction.
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the barometric pressure (baro) sensor works in conjunction with the to provide constant pressure difference information to the pcm.
The barometric pressure (BARO) sensor works in conjunction with the manifold absolute pressure (MAP) sensor to provide constant pressure difference information to the PCM.
The Manifold Absolute pressure (MAP) sensor is used by the Powertrain Control Module (PCM) for engine load entry. The PCM makes use of this input, as well as others, to calculate the correct quantity of gasoline to inject into the cylinders. The MAP sensor measures the absolute strain within the intake manifold of the engine.
Barometric pressure is the size of air strain in the atmosphere, in particular the size of the load exerted by way of air molecules at a given point on this planet.
The Manifold Absolute pressure sensor performs 'double obligation' as a barometric stress sensor as soon because the key's turned on. With the key became on (prior to the engine starting) there is no vacuum inside the engine applied to the MAP sensor therefore its sign to the ECM will become a BARO studying useful in determining air density.
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A rock is initially launched from ground level vertically reaching its highest point 4.2 seconds after being launched. Calculate the initial velocity of the rock, to the nearest 100th, as the rock is launched. Calculate the maximum height of the rock to the nearest 10th.
The initial velocity with which the rock was launched is 41.16 m/s and the maximum height achieved by the rock is 86.4 m.
State three equations of motion.The three equations of motion are -
v = u + at
S = ut + 1/2 at²
v² - u² = 2aS
Given is a rock launched from ground vertically upwards reaching its highest point after 4.2 s of being launched. Therefore, we can write -
Time taken to achieve maximum height [t] = 4.2 sec
Acceleration [a] = - 9.8 m/s²
Assume that the initial velocity is u.
Therefore - at maximum height S[max], t = 4.2 s
Now, at maximum height, final velocity (v) will be zero.
From the first equation of motion -
v = u + at
0 = u - gt
u = gt
u = 9.8 x 4.2
u = 41.16 m/s
The initial velocity of rock was 41.16 m/s.
The maximum height achieved by the rock -
S[max] = ut + 1/2 at²
S[max] = 41.16 x 4.2 - 0.5 x 9.8 x 4.2 x 4.2 = 172.87 - 86.44 = 86.4 m
Therefore, the initial velocity with which the rock was launched is 41.16 m/s and the maximum height achieved by the rock is 86.4 m.
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what helps differentiate between the sound of a fire truck, an ambulance and an 18 wheeler? imbre form dynamics sound
Dynamics sound helps differentiate between the sound of a fire truck, an ambulance and an 18-wheeler.
What is dynamics sound?Elements allude to the din or delicateness of music. Elements offer a method for showing articulation in printed music. They help to drive the profound substance of music through volume and force. Elements can likewise be shown at the large-scale level for a piece of music in general. This may be just a single time toward the beginning, or a few times all through in the event that the din changes during various segments. Static elements are melodic directions that advise us to play the music at a specific volume that doesn't change. As such, don't get stronger or calmer, play each note at a similar volume as the final remaining one.
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An electron has a speed of 0.750 c .(b) What If? Find the speed of a proton that has the same momentum as the electron.
By relativistic momentum, the proton speed is 1.93 x 10⁵ m/s.
We need to know about relativistic momentum to solve this problem. The rest energy of the object can be determined by
P = m₀ . v/ √(1 - v²/c²)
where P is relativistic momentum, m₀ is rest mass, c is speed of light (3 x 10⁸ m/s) and v is speed of object.
From the question above, we know that :
mp = 1.6 x 10¯²⁷ kg
me = 9.1 x 10¯³¹ kg
c = 3 x 10⁸ m/s
ve = 0.75c
Find the relativistic momentum of electron
P = me . ve/ √(1 - ve²/c²)
P = 9.1 x 10¯³¹ . 0.75c / √(1 - (0.75c)²/c²)
P = 2.0475 x 10¯²² / 0.66
P = 3.1 x 10¯²² kg.m/s
Find the speed of proton
P = mp . vp/ √(1 - vp²/c²)
3.1 x 10¯²² = 1.6 x 10¯²⁷ . vp / √(1 - vp²/c²)
vp = 193892.05 x √(1 - vp²/c²)
squared
vp² = 3.76 x10¹⁰ - 3.76 x10¹⁰vp²/c²
(1 + 3.76 x10¹⁰/c²) vp² = 3.76 x10¹⁰
(1.0) vp² = 3.76 x10¹⁰
vp = √(3.76 x10¹⁰)
vp = 1.93 x 10⁵ m/s
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