a race car is traveling on a straight track at a velocity of 80 meters per second when the brakes are applied at time seconds. from time to the moment the race car stops, the acceleration of the race car is given by meters per second per second. during this time period, how far does the race car travel?

Answers

Answer 1

The race car travels a distance of 320 meters during the time period when the brakes are applied and the car stops. For the distance travelled by the race car during the time period when the brakes are applied and the car stops, we need to use the kinematic equation

The kinematic equation is:

d = vi*t + 0.5*a*t^2

where:
d = distance travelled
vi = initial velocity = 80 m/s
t = time period when the brakes are applied and the car stops
a = acceleration = -10 m/s^2 (since the car is decelerating)

Given the acceleration, so find the time period when the car stops. To do this, we can use another kinematic equation:

vf = vi + a*t

where:
vf = final velocity = 0 m/s (since the car stops)
vi = initial velocity = 80 m/s
a = acceleration = -10 m/s^2 (since the car is decelerating)
t = time period when the brakes are applied and the car stops

Solving for t, we get:

t = (vf - vi)/a
t = (0 - 80)/(-10)
t = 8 seconds

Now we can substitute this value of t into the first kinematic equation:

d = vi*t + 0.5*a*t^2
d = 80*8 + 0.5*(-10)*(8)^2
d = 640 - 320
d = 320 meters

Therefore, the race car travels a distance of 320 meters during the time period when the brakes are applied and the car stops.

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Related Questions

there is a fan that blows air across the pipe with an average velocity of 7 ft/sec. what is the rate that heat is convected into the ambient air from the pipe (in watts)?

Answers

The rate of heat connected into the ambient air from the pipe is approximately 8667 watts.

To determine the rate of heat convected into the ambient air from the pipe, we need to use the formula:

Q = h * A * ΔT

Where:
Q = Rate of heat transfer in watts
h = Convective heat transfer coefficient
A = Surface area of the pipe
ΔT = Temperature difference between the surface of the pipe and ambient air

Assuming that the pipe is made of copper (which has a convective heat transfer coefficient of approximately 100 W/m²K), and has a diameter of 0.05 meters and length of 1 meter, the surface area of the pipe can be calculated as:

A = π * d * L
A = π * 0.05 * 1
A = 0.157 m²

Assuming the ambient temperature is 25°C and the temperature of the pipe surface is 150°C (which is a typical temperature for a hot water pipe), the temperature difference (ΔT) can be calculated as:

ΔT = 150 - 25
ΔT = 125°C

Converting the velocity of the air from feet per second to meters per second (since the convective heat transfer coefficient is in units of W/m²K), we get:

V = 7 * 0.3048
V = 2.1336 m/s

Now we can calculate the convective heat transfer coefficient as:

h = 100 * V^(0.8) / d^(0.2)
h = 100 * 2.1336^(0.8) / 0.05^(0.2)
h = 440.46 W/m²K

Finally, substituting all the values into the formula, we get:

Q = 440.46 * 0.157 * 125
Q = 8667.33 watts

Therefore, the rate of heat convected into the ambient air from the pipe is approximately 8667 watts.

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two lamps illuminate a screen equally. the first lamp has an intensity of 12.5 cd and is 3.0 m from the screen. the second lamp is 9.0 m from the screen. what is its intensity?

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The intensity of the second lamp can be calculated using the inverse square law, which states that the intensity of light decreases with the square of the distance from the source. The equation for the inverse square law is:

I2 = I1 * (d1/d2)^2

where I1 is the intensity of the first lamp, d1 is the distance from the first lamp to the screen, I2 is the intensity of the second lamp, and d2 is the distance from the second lamp to the screen.

Substituting the given values, we get:

I2 = 12.5 cd * (3.0 m/9.0 m)^2

I2 = 12.5 cd * (1/3)^2

I2 = 12.5 cd * 0.111

I2 = 1.39 cd

Therefore, the intensity of the second lamp is 1.39 cd.

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A lighted candle is placed 38.0 cm in front of a diverging lens. The light passes through the diverging lens and on to a converging lens of focal length 14.0 cm that is 6.0 cm from the diverging lens. The final image is real, inverted, and 42.0 cm beyond the converging lens. Find the focal length of the diverging lens.

Answers

Let's use f1 to represent the diverging lens's focal length. The thin lens equation may be used to connect the problem's distances and focal lengths: Consequently, the divergent lens's focal length is 9.15 cm.

Now: 1/f1 = 1/d1 - 1/d2

1/f2 = 1/d2 - 1/d3

Here d1 is the distance from the candle to the diverging lens, d2 is the distance between the two lenses, and d3 is the distance from the converging lens to the final image. We can also use the magnification equation to relate the magnifications produced by the two lenses:

m = -(d2/f1)(f2/d3)

Here the negative sign indicates that the final image is inverted.

Values and solving the equations simultaneously, we get:

d1 = 38.0 cm

d2 = 6.0 cm

d3 = 42.0 cm

f2 = 14.0 cm

1/f1 = 1/d1 - 1/d2 = 1/38.0 cm - 1/6.0 cm = -0.0263 cm^-1

1/f2 = 1/d2 - 1/d3 = 1/6.0 cm - 1/42.0 cm = 0.1667 cm^-1

m = -(d2/f1)(f2/d3) = -(6.0 cm/(-0.0263 cm^-1))(0.1667 cm^-1/42.0 cm) = 1.53

Using the magnification equation, we can also relate the distances and focal lengths:

m = -f2/f1

Value of m and the given value of f2, we get:

1.53 = -14.0 cm/f1

f1 = -14.0 cm/1.53 = -9.15 cm

Since the focal length of a lens cannot be negative, we take the absolute value and get:

f1 = 9.15 cm

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You want to find the moment of inertia of a complicated machine part about an axis through its center of mass. You suspend it from a wire along this axis. The wire has a torsion constant of 0.450N⋅m/rad0.450N⋅m/rad. You twist the part a small amount about this axis and let it go, timing 165 oscillations in 265 s. What is its moment of inertia?

Answers

The moment of inertia of the machine part about an axis through its center of mass is 50384.37 kg·m².

Given:

T = 265 s (the time period of oscillation)

k = 0.450 N·m/rad (torsion constant)

The torsion pendulum equation relates the moment of inertia (I) of an object to its torsion constant (k) and the time period of oscillation (T):

I = (k × T²) / (4π²)

Substituting the values into the equation:

I = (0.450 N·m/rad × (265 s)²) / (4π²)

Calculating:

I = 0.450 N·m/rad × 70345 s²/ (4π²)

I = 0.450 N·m/rad × 176164225 s² / (4π²)

I = 0.450 N·m/rad × 4437.6 × 10⁶ s² / (4π²)

I = 0.450 N·m/rad × 4437.6 × 10⁶ s² / (39.48)

I = 50384.37 N·m·s²

I = 50384.37 kg·m²

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what is the energy required to accelerate a 1765 kg car from rest to 29 m/s?

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The energy required to accelerate a 1765 kg car from rest to 29 m/s is approximately 373,128,250 Joules.

To calculate the energy required to accelerate a car from rest to 29 m/s, we can use the formula:

E = (1/2)mv^2

where E is the energy, m is the mass of the car, and v is the final velocity.

First, we need to convert the mass of the car from kilograms to grams:

m = 1765 kg = 1,765,000 g

Next, we can substitute the values into the formula:

E = (1/2)(1,765,000 g)(29 m/s)^2

Simplifying the equation:

E = (1/2)(1,765,000)(841) JE = 373,128,250 J

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the pull cord of a lawnmower engine is wound around a drum of radius 6.43 cm. while the cord is pulled with a force of 76 n to start the engine, what magnitude torque does the cord apply to the drum?

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The magnitude of the torque applied to the drum by the pull cord is approximately 4.89 Nm.

Torque is a measure of the twisting force that causes rotation. It is a vector quantity that depends on the force applied, the distance between the force and the pivot point, and the angle between the force and the lever arm (the perpendicular distance between the force and the pivot point). To find the magnitude of torque applied to the drum, you can use the formula: torque = force x radius. In this case, the force is 76 N and the radius is 6.43 cm (which needs to be converted to meters).
So first, convert the radius to meters: 6.43 cm = 0.0643 m.
Now, calculate the torque: torque = 76 N x 0.0643 m = 4.8868 Nm.
Therefore, the magnitude of the torque applied to the drum by the pull cord is approximately 4.89 Nm.

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a 220 gg block on a 58.0 cmcm -long string swings in a circle on a horizontal, frictionless table at 65.0 rpm

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The speed of a 220 g block hanging from a 58.0 cm long string is 3.94 m/s.

The question is "A 220 g block on a 58.0 cm -long string swings in a circle on a horizontal, frictionless table at 65.0 rpm. What is the speed of the block?"

Based on the information given, we know that there is a 220 g block hanging from a 58.0 cm long string.

The block is swinging in a circle on a horizontal, frictionless table at a rate of 65.0 revolutions per minute (rpm).

To find the speed of the block, we can use the formula:
v = 2πr/T
where v is the speed, r is the radius of the circle (which is the length of the string), and T is the period (the time it takes for the block to complete one revolution).

We can convert the rpm to revolutions per second (rps) by dividing by 60:
65.0 rpm / 60 s = 1.083 rps

The period is then:
T = 1 / 1.083 rps = 0.923 s

Using the length of the string as the radius, we have:
r = 58.0 cm = 0.58 m

Plugging these values into the formula, we get:
v = 2π(0.58 m) / 0.923 s = 3.95 m/s

Therefore, if a 220 g block on a 58.0 cm-long string swings in a circle on a horizontal, frictionless table at 65.0 rpm, then the speed of the block is 3.94 m/s.

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A section of a sphere is mirrored on both sides. If the magnification of an object is +4.10 when the section is used a concave mirror, what is the magnification of an object at the same distance in front of the convex side?
_______________

Answers

Magnification is the relationship between the size of an image and the size of the item that created it in optics. The ratio of the image length to the object length, as measured in planes perpendicular to the optical axis, is referred to as linear magnification, also known as lateral or transverse magnification.

Since the section of the sphere is mirrored on both sides, the focal length of the concave mirror and the convex mirror will be the same. Therefore, we can use the mirror formula:
1/f = 1/u + 1/v
Where f is the focal length, u is the distance of the object from the mirror, and v is the distance of the image from the mirror.

When the section is used as a concave mirror, the magnification is given by:
m = -v/u = +4.10

Since the magnification is positive, the image is upright.

Now, when the same object is placed in front of the convex side at the same distance u, the image will be virtual and erect. The magnification is given by:
m = v/u

To find v, we need to first find f. We know that:
m = -v/u = +4.10
Therefore, v = -4.10u

Now, using the mirror formula, we can find f:
1/f = 1/u + 1/v
1/f = 1/u - 1/4.10u
1/f = (4.10 - 1)/4.10u
f = 4.10u/3.10
f = 1.32u

Now that we know the focal length, we can find the image distance v:
1/f = 1/u + 1/v
1/1.32u = 1/u + 1/v
v = -0.32u

Therefore, the magnification is: m = v/u = -0.32

So, the at the same distance in front of the convex side is -0.32.

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2) what would you expect the sky color to be at an altitude of 50km? why? what factors explain the lower atmospheres blue color?

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At an altitude of 50km, you would expect the sky color to be a darker shade of blue, almost black.

This is because the atmosphere becomes thinner as you go higher in altitude, leading to less scattering of sunlight.

The lower atmosphere's blue color can be explained by several factors, including Rayleigh scattering and absorption of light. Rayleigh scattering occurs when sunlight interacts with gas molecules and small particles in the atmosphere. This scattering is more effective for shorter wavelengths of light, such as blue and violet.

However, our eyes are more sensitive to blue light, which is why we perceive the sky as blue. Additionally, some of the violet light is absorbed by the ozone layer, further contributing to the sky's blue appearance.

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The velocity potential for an Incompressible unliform flow parallel to the x-axis was given In class. Which of the following is the velocity potential for a uniform flow at an angle of attack a? φ(r,y)=Lycosa-rsina) cos α cos

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The given expression is not a valid velocity potential for a uniform flow at an angle of attack α. The correct expression for the velocity potential of a uniform flow at an angle of attack α is φ(r, θ) = U(r cos θ + sin θ), where U is the velocity magnitude.

The velocity potential for a uniform flow at an angle of attack would not be the same as the one given in class for an incompressible uniform flow parallel to the x-axis. The formula given in the question, φ(r,y)=Lycosa-rsina) cos α cos appears to be a formula for a different scenario.

However, to answer the question directly, the terms "velocity", "parallel", and "potential" are all related to the concept of potential flow theory in fluid mechanics. Velocity potential refers to the scalar potential function that can be used to describe the velocity field in a possible flow, where the flow is irrotational and the pressure varies only with the position. Parallel refers to the direction of the flow, where in this case the flow is parallel to the x-axis. Potential refers to the energy per unit mass of the fluid, which is conserved in a potential flow.

In summary, the formula given in the question does not correspond to the velocity potential for a uniform flow at an angle of attack a. However, the terms "velocity", "parallel", and "potential" are all relevant to the concept of potential flow theory.

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What is the frequency of the most intense radiation from an object with temperature 100degreeC? The constant i law is 0.0029 m.K. (c - 3.0 * 10^8 m/s) A)2.9 x 10^-5 Hz B)3.9 x 10^13 Hz C)1.0 x 10^13 Hz D)1.0 x 10^11 Hz

Answers

The frequency of the most intense radiation from an object with temperature 100°C is approximately 3.9 × 10^13 Hz, which is option B.

What is the Planck constant, put simply?

Planck's constant, also known as h, is a fundamental universal constant that defines the quantum nature of energy and connects the energy of a photon to its frequency. The constant value in the International System of Units (SI) is 6.626070151034 joule-hertz1 (or joule-seconds).

We can use Wien's displacement law to determine the wavelength of the most intense radiation from an object with temperature T. Wien's law is given by:

λ_max = b/T

where λ_max is the wavelength of the most intense radiation, T is the temperature in Kelvin, and b is Wien's displacement constant, which is given as 2.898 × 10⁻³m.K.

When we convert the 100°C temperature to Kelvin, we obtain:

[tex]T = (100 + 273) K = 373 K[/tex]

When we change the values in the above equation, we obtain:

λ_max = (2.898 × 10⁻³m.K) / 373 K = 7.77 × 10⁻⁶ m

The frequency of radiation can be determined using the formula:

c = f λ

where c is the speed of light in a vacuum, λ is the wavelength, and f is the frequency.

Substituting the values, we get:

f= c / λ_max = (3.0 × 10⁸ m/s) / (7.77 × 10⁻⁶m) = 3.86 × 10¹³ Hz

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Determine the normal force at a section passing through point C
Determine the shear force at a section passing through point C
Determine the moment at a section passing through point C
P = 9 kN

Answers

We cannot provide a numerical answer for the moment at point C.

Explanation:

To determine the normal force, shear force, and moment at a section passing through point C, we can follow these steps:

1. Normal force at point C:
Since normal force is the force acting perpendicular to the surface, and there is no information given about any additional forces in the vertical or horizontal direction, the normal force at point C would be zero. This means there is no force acting perpendicular to the surface at point C.

Normal force at point C = 0

2. Shear force at point C:
Shear force is the force acting parallel to the surface. In this case, the only force acting on the structure is P = 9 kN. Since no other forces or reactions are mentioned, the shear force at point C is equal to the applied force P.

Shear force at point C = 9 kN

3. Moment at point C:
To determine the moment at point C, we need to know the distance from the point where the force is applied to point C. However, this information is not provided in the question. Assuming the distance is 'd', the moment at point C can be calculated using the formula:

Moment at point C = P * d

Without knowing the value of 'd', we cannot provide a numerical answer for the moment at point C.

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a spring of force constant 245.0 n/m and unstretched length 0.280 m is stretched by two forces, pulling in opposite directions at opposite ends of the spring, that increase to 22.0 n. How long will the spring now be, and how much work was required to stretch it that distance?

Answers

The spring constant is 245.0 N/m and the unstretched length is 0.280 m. The forces pulling on the spring increase to 22.0 N, pulling in opposite directions at opposite ends of the spring.

To find the new length of the spring, we can use Hooke's law, which states that the force applied to a spring is directly proportional to the amount of stretch or compression of the spring. The formula for Hooke's law is:

F = -kx

Where F is the force applied to the spring, k is the spring constant, and x is the amount of stretch or compression of the spring. The negative sign indicates that the force applied to the spring is in the opposite direction of the displacement of the spring.

We can rearrange this formula to solve for x:

x = -F/k

Plugging in the values we have:

x = -(22.0 N)/(245.0 N/m)
x = -0.0898 m

Therefore, the new length of the spring is:

L = Lo + x
L = 0.280 m - 0.0898 m
L = 0.1902 m


To find the work required to stretch the spring this distance, we can use the formula:

W = (1/2)kx^2

Plugging in the values we have:

W = (1/2)(245.0 N/m)(0.0898 m)^2
W = 0.975 J


Therefore, the work required to stretch the spring 0.0898 m is 0.975 J.
Hello! I'd be happy to help you with your question.

Given the spring's force constant (k) is 245.0 N/m, and the force applied (F) is 22.0 N, we can use Hooke's Law to determine the change in the spring's length (Δx):

F = k * Δx

Rearranging the formula to find Δx:

Δx = F / k
Δx = 22.0 N / 245.0 N/m
Δx ≈ 0.0898 m


Now, to find the new length of the spring (L'), add the change in length (Δx) to the unstretched length (L):

L' = L + Δx
L' = 0.280 m + 0.0898 m
L' ≈ 0.3698 m


To calculate the work (W) done in stretching the spring, we use the formula:

W = 0.5 * k * Δx²
W = 0.5 * 245.0 N/m * (0.0898 m)²
W ≈ 1.003 J


So, the spring will now be approximately 0.3698 meters long, and 1.003 Joules of work was required to stretch it that distance.

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a 0.142 kgkg baseball leaves a pitcher's hand at a speed of 28.5 m/sm/s. If air drag is negligible, how much work has the pitcher done on the ball by throwing it?

Answers

The pitcher has done 57.68 Joules of work on the 0.142 kg baseball by throwing it.

To calculate the work done on a 0.142 kg baseball by the pitcher, we need to consider the initial speed of the ball (28.5 m/s) and the terms "speed" and "work."

First, let's calculate the ball's kinetic energy (KE) using the formula: KE = 0.5 * mass * speed^2

KE = 0.5 * 0.142 kg * (28.5 m/s)^2

Now, solve for the kinetic energy:
KE = 0.071 * 812.25
KE = 57.68 J (Joules)

Since air drag is negligible, the work done by the pitcher on the ball is equal to the ball's kinetic energy. So, the pitcher has done 57.68 Joules of work on the 0.142 kg baseball by throwing it at a speed of 28.5 m/s.

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find the average magnitude of the induced emf if the change in shape occurs in 0.165 s and the local 0.422- t magnetic field is perpendicular to the plane of the loop.

Answers

The average magnitude of the induced emf can be calculated using the formula. The magnitude of the induced emf is therefore 0.424 volts.

emf = -NΔΦ/Δt
where N is the number of turns in the loop, ΔΦ is the change in magnetic flux, and Δt is the time interval over which the change occurs. Since the magnetic field is perpendicular to the plane of the loop, the change in magnetic flux can be expressed as:
ΔΦ = B*A*cos(θ)*Δt
where B is the magnetic field strength, A is the area of the loop, θ is the angle between the magnetic field and the normal to the plane of the loop, and Δt is the time interval. In this case, θ = 90 degrees, so cos(θ) = 0. Therefore, the formula simplifies to:
ΔΦ = B*A*Δt
Substituting the given values, we get:
ΔΦ = (0.422 T)*(1 m^2)*(0.165 s) = 0.070 m^2·T·s
Since the loop has only one turn, N = 1. Therefore, the emf can be calculated as:
emf = -(ΔΦ/Δt) = -(0.070 m^2·T·s/0.165 s) = -0.424 V
The magnitude of the induced emf is therefore 0.424 volts.


To find the average magnitude of the induced emf in a situation where the change in shape occurs in 0.165 s and the local 0.422-T magnetic field is perpendicular to the plane of the loop, we can follow these steps:
1. Determine the initial magnetic flux (Φ₁) through the loop before the change in shape.
2. Determine the final magnetic flux (Φ₂) through the loop after the change in shape.
3. Calculate the change in magnetic flux (ΔΦ) by subtracting Φ₁ from Φ₂.
4. Calculate the average magnitude of the induced emf (ε) using Faraday's law: ε = |ΔΦ| / Δt, where Δt is the time taken for the change in shape (0.165 s).

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according to phil, the only way we know how to get accurate stellar masses is group of answer choices when they have iron absorption lines when they are incredibly dim when they are incredibly bright when they have hydrogen absorption lines when they are in a binary system

Answers

According to Phil, the only way we know how to get accurate stellar masses is when they are in a binary system.

In a binary system, two stars orbit each other, and their gravitational interaction can be observed and measured. This interaction allows astronomers to determine the stars' masses using Kepler's laws and other astrophysical methods. Other methods, such as using iron or hydrogen absorption lines, can provide information about the stars' compositions and temperatures, but not their masses with the same accuracy as binary systems.

To obtain accurate stellar masses, it is essential to observe stars in a binary system, as their gravitational interaction provides the most reliable measurements.

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Math the type of field with the correct object is associated with edulasic

Answers

Objects with charge: Electric and Magnetic fields, Objects with iron or steel: Magnetic field.  and Objects with mass: Gravitational field.

Electric fields are associated with objects that have an electric charge. Any object that has a charge, whether it is positive or negative, will create an electric field around it. This field can interact with other charged objects and cause a force between them.

Magnetic fields are associated with objects that have magnetic properties, such as iron or steel. These materials have tiny magnetic domains that can align in the presence of an external magnetic field, creating a net magnetic field. This magnetic field can interact with other magnetic objects and cause a force between them.

Gravitational fields are associated with objects that have mass. Any object that has mass, whether it is large or small, will create a gravitational field around it. This field can interact with other massive objects and cause a force between them. The strength of the gravitational field is proportional to the mass of the object creating the field.

Therefore, Charged objects exhibit electric and magnetic fields, whereas steel or iron objects exhibit a magnetic field.  and the gravitational field for mass-bearing objects.

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A section of a sphere is mirrored on both sides. If the magnification of an object is +3.70 when the section is used a concave mirror, what is the magnification of an object at the same distance in front of the convex side?

Answers

A section of a sphere is mirrored on both sides. If the magnification of an object is +3.70 the magnification is -4.70.

The magnification of an object at the same distance in front of the convex side of the mirrored section of a sphere can be found using the mirror equation:
1/f = 1/di + 1/do
where f is the focal length of the mirror, di is the distance of the object from the mirror, and do is the distance of the image from the mirror.
Since the section is mirrored on both sides, the focal length of the concave and convex sides will be the same. Therefore, we can use the magnification equation:
m = -di/do

where m is the magnification.
We know that when the section is used as a concave mirror, the magnification is +3.70. Therefore,
+3.70 = -di/do

Solving for do, we get
do = -di/3.70
Now, substituting this value of do into the mirror equation, we get
1/f = 1/di - 3.70/di
Simplifying this equation, we get
f = di/4.70
Therefore, the magnification of an object at the same distance in front of the convex side of the mirrored section will be
m = -di/(di/4.70)
m = -4.70


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for the first order decomposition of phosphine, the time required to go from 1.00 m to 0.250 m is 120 seconds. how long will it take for the concentration to go from 0.400 m to 0.100 m

Answers

The first-order decomposition of phosphine is a chemical reaction in which phosphine decomposes into its constituent elements over time. The rate of this reaction is proportional to the concentration of phosphine. In this problem, we are given that the time required to go from 1.00 m to 0.250 m is 120 seconds.

To determine the time it will take for the concentration to go from 0.400 m to 0.100 m, we can use the following formula:

ln([A]t/[A]0) = -kt

where [A]t is the concentration of phosphine at time t, [A]0 is the initial concentration of phosphine, k is the rate constant of the reaction, and t is the time.

We can rearrange this formula to solve for t:

t = ln([A]t/[A]0) / -k

We know that the initial concentration is [A]0 = 0.400 m and the final concentration is [A]t = 0.100 m. We can also use the rate constant k, which can be determined from the half-life of the reaction:

t1/2 = ln(2) / k

We are given that the time required to go from 1.00 m to 0.250 m is 120 seconds, so we can use this information to find the half-life:

t1/2 = ln(2) / k = ln(2) / (120 seconds) = 0.0058 seconds^-1

Now we can use this value of k and the concentrations to find the time required to go from 0.400 m to 0.100 m:

t = ln([A]t/[A]0) / -k = ln(0.100/0.400) / (-0.0058 seconds^-1) = 358 seconds

Therefore, it will take approximately 358 seconds for the concentration of phosphine to go from 0.400 m to 0.100 m.

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In a polarization of light experiment an incandescent light source is used. The ratio polarized to unpolarized light intensity is (a) 25% (b) 50% (c) 75% (d) 100%

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(b) 50%.  In a polarization of light experiment an incandescent light source is used. The ratio polarized to unpolarized light intensity is  50%.

In an experiment to measure the polarization of light, an incandescent light source is used to emit light in all directions. However, the emitted light is unpolarized, meaning that the light waves vibrate in all possible planes perpendicular to the direction of propagation. To obtain polarized light, a polarizer is used to pass only the light waves that vibrate in a single plane. As a result, only half of the original light intensity can pass through the polarizer, and the other half is absorbed or blocked. Thus, the ratio of polarized to unpolarized light intensity is 1:1 or 50%. This result holds true for any polarizer that only allows light waves vibrating in a single plane to pass through.

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if an object has a moment of inertia 26 kg·m2 and rotates with an angular speed of 80 radians/s, what is its rotational kinetic energy?

Answers

The rotational kinetic energy of the object is 83,200 Joules.

The rotational kinetic energy of an object is the energy it possesses due to its rotation. It can be calculated using the formula:

[tex]K_rot = (1/2) * I * ω^2[/tex]

where K_rot is the rotational kinetic energy, I is the moment of inertia of the object, and ω is its angular velocity.

In this case, the object has a moment of inertia of [tex]26 kg·m^2[/tex]and is rotating with an angular speed of 80 radians/s. Substituting these values into the formula gives:

[tex]K_rot = (1/2) * 26 kg·m^2 * (80 radians/s)^2[/tex]

= 83,200 J

Therefore, the rotational kinetic energy of the object is 83,200 Joules.

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The earth makes one complete revolution on its axis in 23 h 56 min. Knowing that the mean radius of the earth is 3960 mi, determine the linear velocity and acceleration of a point on the surface of the earth (a) at the equator, (b) at Philadelphia, latitude 40° north, (c) at the North Pole.

Answers

At the equator, Philadelphia, and the North Pole, a point's linear velocity and acceleration are determined as described above.

(a) At the equator:

The Earth's equator has a radius of 3960 miles. Therefore, the linear velocity of a point on the surface of the Earth at the equator is:

v = ωr = (2π / 23.9333 hours) * 3960 miles = 1037.564 mph

The acceleration of a point on the surface of the Earth at the equator can be calculated using the formula:

[tex]a = v^2 / ra = (1037.564 mph)^2 / 3960 miles = 0.273 g[/tex]

(b) At Philadelphia, latitude 40° north:

r = 3960 miles * cos(40°) = 3004.05 miles

The linear velocity of a point on the surface of the Earth at Philadelphia is:

v = ωr = (2π / 23.9333 hours) * 3004.05 miles = 784.166 mph

[tex]a = v^2 / r = (784.166 mph)^2 / 3004.05 miles = 0.154 g[/tex]

(c) At the North Pole:

r = 3960 miles * cos(90°) = 3960 miles

The linear velocity of a point on the surface of the Earth at the North Pole is:

v = ωr = (2π / 23.9333 hours) * 3960 miles = 1038.993 mph

The acceleration of a point on the surface of the Earth at the North Pole is:

[tex]a = v^2 / r = (1038.993 mph)^2 / 3960 miles[/tex] = 0.034 g

A key idea in physics is acceleration, which defines how rapidly an object's velocity alters over time. In other words, it is the rate at which the velocity of an object changes in relation to time. An item is considered to be accelerating when its speed changes, whether it is increasing or decreasing.

Depending on how the velocity changes, acceleration can be either positive or negative. For instance, an object's acceleration is positive while it is speeding up, whereas it is negative when it is going down. According to Newton's second equation of motion, acceleration is directly linked to the force pulling on an object.

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At the equator, Philadelphia, and the North Pole, a point's linear velocity and acceleration are determined as described above.

(a) At the equator:

The Earth's equator has a radius of 3960 miles. Therefore, the linear velocity of a point on the surface of the Earth at the equator is:

v = ωr = (2π / 23.9333 hours) * 3960 miles = 1037.564 mph

The acceleration of a point on the surface of the Earth at the equator can be calculated using the formula:

[tex]a = v^2 / ra = (1037.564 mph)^2 / 3960 miles = 0.273 g[/tex]

(b) At Philadelphia, latitude 40° north:

r = 3960 miles * cos(40°) = 3004.05 miles

The linear velocity of a point on the surface of the Earth at Philadelphia is:

v = ωr = (2π / 23.9333 hours) * 3004.05 miles = 784.166 mph

[tex]a = v^2 / r = (784.166 mph)^2 / 3004.05 miles = 0.154 g[/tex]

(c) At the North Pole:

r = 3960 miles * cos(90°) = 3960 miles

The linear velocity of a point on the surface of the Earth at the North Pole is:

v = ωr = (2π / 23.9333 hours) * 3960 miles = 1038.993 mph

The acceleration of a point on the surface of the Earth at the North Pole is:

[tex]a = v^2 / r = (1038.993 mph)^2 / 3960 miles[/tex] = 0.034 g

A key idea in physics is acceleration, which defines how rapidly an object's velocity alters over time. In other words, it is the rate at which the velocity of an object changes in relation to time. An item is considered to be accelerating when its speed changes, whether it is increasing or decreasing.

Depending on how the velocity changes, acceleration can be either positive or negative. For instance, an object's acceleration is positive while it is speeding up, whereas it is negative when it is going down. According to Newton's second equation of motion, acceleration is directly linked to the force pulling on an object.

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What does resistances within a circuit have to do with the brightness of a light bulb within that same circuit?
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What do we call objects with high resistance and low resistance?
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Complete and full answer with explanation gets Brainliest
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People who misuse this and only use it to get points will be reported

Answers

The resistance within a circuit can affect the brightness of a light bulb within that same circuit because the amount of current flowing through the circuit depends on the resistance in the circuit. The greater the resistance in the circuit, the less current will flow through it, which means less energy is being delivered to the light bulb. This can result in a dimmer light bulb. On the other hand, if there is lower resistance in the circuit, more current will flow through it, which means more energy is being delivered to the light bulb. This can result in a brighter light bulb.

Objects with high resistance are called resistors, while objects with low resistance are called conductors. Resistors are objects that restrict the flow of current through a circuit, while conductors are objects that allow current to flow freely through them. Resistors are used in circuits to control the amount of current flowing through them, while conductors are used to provide a low resistance path for current to flow through. Some examples of conductors include metals like copper and aluminum, while some examples of resistors include materials like carbon and metal oxide.

A 22.0-μ F capacitor is connected to an ac generator with an rms voltage of 112 V and a frequency of 60.0 Hz.
Part A
What is the rms current in the circuit?
Express your answer to three significant figures and include appropriate units.

Answers

The rms current in the circuit consisting of the capacitor connected to the ac generator is 0.929 A.

To find the rms current in the circuit, we can use the formula:

I_rms = V_rms / X_c

Where:
I_rms is the rms current,
V_rms is the rms voltage (112 V),
X_c is the capacitive reactance.

To find X_c, we use the formula:

X_c = 1 / (2 * π * f * C)

Where:
f is the frequency (60.0 Hz),
C is the capacitance (22.0 μF).

First, let's calculate X_c:

X_c = 1 / (2 * π * 60.0 Hz * 22.0 * 10⁻⁶ F) ≈ 120.57 Ω

Now, we can find the rms current:

I_rms = 112 V / 120.57 Ω ≈ 0.929 A

So the rms current in the circuit is 0.929 A (to three significant figures).

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A falling 1-N apple hits ground with a force of about A. 4 N B. 2 N C. 1 N D. 10 N E. need more information

Answers

A falling 1-N apple hits ground with a force of about C) 1 N

The force with which an object falls to the ground is determined by its weight, which is equal to its mass multiplied by the acceleration due to gravity. On Earth, the acceleration due to gravity is approximately 9.8 m/s^2. Since the weight of a 1-N apple is 1 N, the force with which it hits the ground would also be approximately 1 N.

Therefore, the correct answer is C. 1 N. However, it's worth noting that this answer assumes the apple is falling freely under the influence of gravity and there are no other forces acting on it, such as air resistance.

In reality, the force with which the apple hits the ground could vary depending on various factors such as height from which it falls, air resistance, and surface on which it falls.

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A good tutor will be correct in saying that velocity and acceleration are A) different concepts. B) the same concept, but expressed differently. C) expressions for changing speeds. D) rates of one another.

Answers

A good tutor will be correct in saying that velocity and acceleration are different concepts. The correct option is A.

Velocity and acceleration are distinct concepts in physics and describe different aspects of motion.

Velocity refers to the rate at which an object changes its position in a particular direction over time. It is a vector quantity, meaning it has both magnitude (speed) and direction. Velocity is calculated as the change in displacement divided by the change in time.

Acceleration, on the other hand, refers to the rate at which an object changes its velocity over time. It is also a vector quantity and is calculated as the change in velocity divided by the change in time.

While velocity and acceleration are related, they are not the same concept and are expressed differently. Velocity describes the speed and direction of motion, while acceleration describes how quickly the velocity changes.

They are both important in understanding the motion of objects and are fundamental concepts in physics.

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A stress of 75 MPa is applied in the [001] direction on an FCC single crystal. Calculate (a) the resolved shear stress acting on the (111) [101] slip system and, (b) the resolved shear stress acting on the (111) [110] slip system.

Answers

The resolved shear stress on the (111)[101] slip system is 43.3 MPa, and on the (111)[110] slip system, it is 25.98 MPa.

To calculate the resolved shear stress (τ) on the given slip systems, we can use the equation: τ = σ * cos(φ) * cos(λ), where σ is the applied stress, φ is the angle between the stress direction and the slip plane normal, and λ is the angle between the stress direction and the slip direction.

(a) For the (111)[101] slip system, first calculate the angle φ between [001] and (111). Use the dot product formula: cos(φ) = ([001] • (111))/(|[001]|*|(111)|).

Next, calculate the angle λ between [001] and [101] using the same formula. Then, substitute the calculated cos(φ) and cos(λ) values and the given stress of 75 MPa into the equation to find the resolved shear stress.

(b) For the (111)[110] slip system, follow the same process, but now calculate the angle φ between [001] and (111), and λ between [001] and [110]. Substitute the calculated cos(φ) and cos(λ) values and the given stress of 75 MPa into the equation to find the resolved shear stress.

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Bats use echolocation to navigate. They can emit ultrasonic waves with frequencies as high as 1.0×105 Hz.
What is the wavelength of such a wave? The speed of sound in air is 340 m/s.
A) 3.4×103 m
B) 3.4×10−3 m
C) 3.4×105 m
D) 3.4×107 m

Answers

The wavelength of the ultrasonic wave emitted by bats is B) 3.4×10−3 m.

How to find wavelength

To calculate the wavelength of the ultrasonic wave emitted by bats, we can use the formula:

Wavelength (λ) = Speed of sound (v) / Frequency (f)

Given that the frequency (f) is 1.0×10^5 Hz and the speed of sound (v) is 340 m/s, we can plug in the values:

λ = 340 m/s / 1.0×10^5 Hz

λ = 3.4×10^−3 m

So the correct answer is: B) 3.4×10^−3 m

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Protons move in a circle of radius 7.00cm in a .0.498T magnetic field. What value of electric field could make their paths straight? In what direction must it point?

Answers

The electric field required to straighten the protons' paths is 3.49 10^{-2} V/m, and it must be in the opposite direction of the protons' motion.

Why does a proton in a magnetic field move in a circle?

This is due to the magnetic field's force, which always pushes it in a direction that is perpendicular to both its own and the magnetic field's directions. The force pushes the proton in a circular path because the magnetic field is pointing directly out of the screen in this case.

The electric force on a proton moving in an electric field is given by:

F_e = qE

F_e = electric force

q = charge of the proton (+1.602 × 10^{-19} C)

E = electric field

In a magnetic field, the magnetic force on a moving proton is,

F_m = qvB

F_m = magnetic force

v = velocity of the proton

B = magnetic field strength

The electric force must be equal in magnitude and direction to the magnetic force in order to straighten the protons' paths.

F_e = F_m

qE = qvB

E = vB

Substitute the given values,

E = (7.00 × 10^{-2} m) × (0.498 T)

 = 3.49 × 10^{-2} V/m

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Which statements describe isotopes? Check all that apply.
Isotopes of the same element have the same number of protons.
Isotopes of the same element have the same number of neutrons.
All isotopes are unstable.
Some isotopes are unstable.
Isotopes are identified by their mass number.
Isotopes are identified by their atomic number.

Answers

These four statements are correctly describe the isotopes.

Isotopes of the same element have the same number of protons. (True)Isotopes of the same element may have different numbers of neutrons. (True)Some isotopes are unstable. (True)Isotopes are identified by their mass number. (True)

Therefore, the statements "Isotopes of the same element have the same number of neutrons," "All isotopes are unstable," and "Isotopes are identified by their atomic number" are incorrect.

What are the isotopes?

Isotopes are variants of an element that have the same number of protons in their atomic nucleus but different numbers of neutrons. Isotopes of an element share the same atomic number, which is the number of protons in the nucleus, but have different atomic masses due to the varying number of neutrons. For example, carbon-12, carbon-13, and carbon-14 are three isotopes of the element carbon, with 6, 7, and 8 neutrons, respectively.

Isotopes occur naturally for many elements, and some isotopes can be artificially created through nuclear reactions. Isotopes have a wide range of applications in fields such as radiometric dating, nuclear power, medical diagnosis and treatment, and materials science.

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Answer:1,4,5

Explanation:

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