An object with a mass of 6.00 g is moving to the right at 14.0 cm/s when it is overtaken by an object with a mass of 30.0 g moving in the same direction with a speed of 19.0 cm/s. If the collision is elastic, determine the speed of each object after the collision.

Answers

Answer 1

After the collision, the 6.00 g object will be moving to the right at 1.97 m/s and the 30.0 g object will be moving to the right at 0.168 m/s.

Let's first calculate the initial momentum of the system before the collision:

p_i = m₁v₁ + m₂v₂

where m₁ = 6.00 g = 6.00 × 10⁻³ kg, v₁ = 14.0 cm/s = 0.14 m/s, m₂ = 30.0 g = 30.0 × 10⁻³ kg, and v₂ = 19.0 cm/s = 0.19 m/s

p_i = (6.00 × 10⁻³ kg) × (0.14 m/s) + (30.0 × 10⁻³ kg) × (0.19 m/s) = 0.00594 kg m/s

Since the collision is elastic, the total momentum of the system after the collision will be the same as before the collision:

p_f = m₁v₁' + m₂v₂'

where v₁' and v₂' are the velocities of the two objects after the collision.

Now, we need to use the conservation of kinetic energy to solve for v₁' and v₂':

(1/2) m₁v₁² + (1/2) m₂v₂² = (1/2) m₁(v₁')² + (1/2) m₂(v₂')²

Substituting the values we know:

(1/2) (6.00 × 10⁻³ kg) (0.14 m/s)² + (1/2) (30.0 × 10⁻³ kg) (0.19 m/s)² = (1/2) (6.00 × 10⁻³ kg) (v₁')² + (1/2) (30.0 × 10⁻³ kg) (v₂')²

Simplifying and rearranging:

0.001701 kg m²/s² = 0.003 v₁'² + 0.0285 v₂'²

We also have the equation for conservation of momentum:

0.00594 kg m/s = 6.00 × 10⁻³ kg v₁' + 30.0 × 10⁻³ kg v₂'

We can use these two equations to solve for v₁' and v₂'. Solving for v₂' in the momentum equation and substituting into the kinetic energy equation:

v₁' = 1.97 m/s

v₂' = 0.168 m/s

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Related Questions

The values of the components in the circuit are L = 145 mH, R1 = 370 ?, R2 = 400 ?, andemf= 10. 0 V. Use downward as the positive direction for all currents. Find.

(a) immediately after the switch is closed (after being open a long time).
. The current through the inductor

IL =
. The current through R2

I2 =

(b) a long time after the switch has been closed.
. The current through the inductor

IL =
. The current through R2

I2 =

(c) immediately after the switch is open (after being closed a long time).
. The current through the inductor

IL=
. The current through R2

I2 =

(d) a time 4. 712e-04 s after the switch is open.
. The current through the inductor

IL =
. The current through R2

I2 =

Answers

The current through the inductor IL = 0.02279 A the current through R₂

To solve this circuit, we can use Kirchhoff's laws and the formula for the voltage across an inductor:

V = L di/dt

(a) Immediately after the switch is closed (after being open a long time), the current through the inductor and the current through R₂ are both zero (since there is no initial current in the circuit).

IL = 0

I₂ = 0

(b) A long time after the switch has been closed, the circuit will reach steady state, and the current through the inductor and the current through R₂ will be constant. To find these currents, we can use the fact that the voltage across the inductor and the voltage across R₁ must be equal to the EMF of the circuit (since there is no voltage drop across the switch when it is closed):

VL = VR₁ = emf = 10.0 V

Using Ohm's law for R₁ and R₂, we can find the total resistance of the circuit:

Rtotal = R₁ + R₂ = 770 ohms

Then we can use Ohm's law again to find the current through R₂:

I₂ = VR₂ / R₂ = (emf -VL) / R₂ = (10.0 V - 3.65 V) / 400 ohms = 0.01625 A

Since the current through R2 is the same as the current through the circuit, we can use this value to find the current through the inductor:

Itotal = I₂ = IL

IL = 0.01625 A

I₂ = 0.01625 A

(c) Immediately after the switch is open (after being closed a long time), the circuit will again reach steady state, but this time with the switch open. This means that there will be no current flowing through the circuit, since there is no complete path for the current to follow.

IL = 0

I₂ = 0

(d) To find the currents at a specific time after the switch is open, we need to use the formula for the current through an inductor as a function of time:

i(t) = (emf/R) + [I(0) - (emf/R)]e^(-Rt/L)

where R is the total resistance of the circuit, L is the inductance of the inductor, and I(0) is the initial current in the circuit (which is zero in this case).

At t = 4.712e-04 s, we have:

Rtotal = R1 + R2 = 770 ohms

L = 145 mH = 0.145 H

emf = 10.0 V

I(0) = 0

So we can plug these values into the formula to find the current through the inductor:

IL = (emf/Rtotal) + [I(0) - (emf/Rtotal)]e^(-Rtotalt/L)

= (10.0 V/770 ohms) + [0 - (10.0 V/770 ohms)]e^(-770 ohm st/0.145 H)

= 0.01299 A

To find the current through R₂, we can use Ohm's law:

I₂ = (emf - VL) / R₂

= (10.0 V - 1.886 V) / 400 ohms

= 0.02279 A

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A very bright source of red light has much more energy than a dim source of blue light, but the red light has no effect in ejecting electrons from a certain photosensitive surface. Briefly explain why this is the case. Your answer should explain the physics of what is going on; an answer consisting just a name, law, or effect will not receive any points.

Answers

This is because the energy of the light is related to the frequency of the light, not the brightness.

What is frequency?

Frequency is a measure of how often something happens over a given period of time. It is typically expressed as a number of occurrences per unit of time, such as cycles per second, hertz (Hz), or events per second. Frequency is an important concept in physics and engineering, as it is used to describe waves, signals, and vibrations. Frequency is also important for communication, as it indicates how often a signal is sent or received.

The higher the frequency, the more energy it has. Red light has a lower frequency than blue light, so even though the red light is brighter, it does not have as much energy as the dim blue light. This is why the red light has no effect on ejecting electrons from the photosensitive surface; the energy of the red light is not enough to overcome the binding energy of the electrons to the surface.


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American essayist and social critic H. L. Mencken (1880-1956) wrote, "The average man does not want to be free. He simply wants to be safe."In a well-written essay, examine the extent to which Mencken's observation applies to contemporary society, supporting your position with appropriate evidence.

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Mencken's observation that the average man does not want to be free but simply wants to be safe still holds true in contemporary society. While many individuals may express a desire for freedom, their actions suggest otherwise. For example, people willingly give up their privacy and personal information for the promise of safety from cyber threats.

In the wake of recent mass shootings, there has been a call for stricter gun control laws despite the fact that it may limit individual freedom. Moreover, people often conform to societal norms and expectations in order to feel accepted and safe.

However, there are also individuals and movements advocating for greater freedom and autonomy, such as the #Me Too movement and the fight for LGBTQ+ rights. Thus, while the desire for safety remains prevalent, there are also those who are actively pushing for more individual freedoms.

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A plane has an eastward heading with an airspeed of 156 m/s. A 20.0 m/s wind is blowing southward at the same time as the plane is flying. The velocity of the plane relative to the ground is

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To find the velocity of the plane relative to the ground, we need to use vector addition. The eastward airspeed of the plane is one vector, while the southward wind speed is another vector. The resulting vector is the velocity of the plane relative to the ground.

Using the Pythagorean theorem, we can find the magnitude of the resulting vector:

Velocity^2 = (156 m/s)^2 + (20.0 m/s)^2

Velocity = sqrt[(156 m/s)^2 + (20.0 m/s)^2]

Velocity = 158.1 m/s

The direction of the resulting vector can be found using trigonometry. We can use the tangent function to find the angle between the eastward direction and the direction of the resulting vector:

tan(theta) = opposite/adjacent

tan(theta) = (20.0 m/s)/(156 m/s)

theta = 7.3 degrees south of east

Therefore, the velocity of the plane relative to the ground is 158.1 m/s at an angle of 7.3 degrees south of east.

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you are 2.5 m from a plane mirror, and you would like to take a picture of yourself in the mirror. you need to manually adjust the focus of the camera by dialing in the distance to what you are photographing. what distance do you dial in?

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Since you are 2.5 m away from the plane mirror, the distance you need to dial in for your camera's focus would also be 2.5 m.

This is because the light rays from your image in the mirror will be reflected as if they were coming from a virtual image behind the mirror at the same distance as the object (in this case, you) in front of the mirror. Therefore, the camera should be focused at a distance of 2.5 m to capture a clear image of yourself in the mirror.
To take a picture of yourself in a plane mirror placed 2.5 meters away, you would need to manually adjust the focus of the camera by dialing in the distance of 5 meters. This is because the total distance includes the distance from you to the mirror (2.5 meters) and the distance from the mirror to your reflection (another 2.5 meters).

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if the clock runs slow and loses 17 s per day, how should you adjust the length of the pendulum? note: due to the precise nature of this problem you must treat the constant g as unknown (that is, do not assume it is equal to exactly 9.80 m/s2 ).

Answers

L₂ = L1 * (T₂/T₁)² Once you find L₂, you should change the pendulum length to L₂ to make the clock run accurately.

To adjust the length of the pendulum for a clock that loses 17 seconds per day, you need to consider the relationship between the pendulum's period (time for one oscillation) and its length. The period of a simple pendulum can be expressed using the following formula:

T = 2π√(L/g)

where T is the period, L is the length of the pendulum, and g is the acceleration due to gravity. Since we cannot assume the value of g, we'll express the relationship between the current and desired pendulum lengths using the periods and this formula.

Let T₁ be the current period and T₂ be the desired period for the clock to keep accurate time. Since the clock loses 17 seconds per day, we can find the ratio of T₂ to T₁:

T₂/T₁ = (86400 + 17)/86400

Now, we'll equate the square of this ratio to the ratio of the pendulum lengths, since the lengths are proportional to the square of the periods:

(L₂/L₁) = (T₂/T₁)²

Rearrange the equation to find the desired length L₂:

L₂ = L₁ * (T₂/T₁)²

Now, you can calculate the adjusted length L₂ of the pendulum, given the original length L₁. Once you find L₂, you should change the pendulum length to L₂ to make the clock run accurately.

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A resistor and inductor are connected to a 9.0 V battery by a switch as shown. The moment the switch is closed, current flows through the circuit. The resistor has a resistance of R = 220 2 and the inductor has an inductance of L = 130 mH. Randomized Variables R 220Ω 130 ml R = - 9.0V L 00000000 Part (a) At time I = 0 the switch is closed and current flows through the circuit. The current increases with time and eventually reaches a steady Calculate the maximum current imax in units of milliamps

Answers

According to the question the maximum current in the circuit is 40.45 mA.

What is circuit?

A circuit is an interconnected network of electrical components which, when connected to a power source, forms a closed loop that allows electrical current to flow. This current is then regulated by components such as resistors, capacitors, and transistors, which all work together to form a functioning circuit. Circuits are used in many everyday applications, such as electronics, computers, and even automobiles.

The maximum current in the circuit is given by the expression:
[tex]I_{max} = \frac{V}{R + \frac{1}{\omega L}}[/tex]
Plugging these values into the expression, we get:
[tex]I_{max} = \frac{9.0}{220 + \frac{1}{0 \cdot 130 \cdot 10^{-3}}}[/tex]
Simplifying, we get:
[tex]I_{max} = 40.45 mA[/tex]
Therefore, the maximum current in the circuit is 40.45 mA.

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You should always measure your following distance in:.

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You should always measure your following distance in A. seconds. This helps maintain uniformity and consistency.

Using time as a measure of following distance allows for consistency in maintaining a safe space between vehicles, regardless of speed. The recommended following distance is typically 3 seconds, which can be adjusted depending on road conditions, visibility, and other factors.

The other options are incorrect because:

B. Car lengths: Measuring distance in car lengths can be misleading, as different vehicles have varying lengths, and this method doesn't account for changes in speed. At higher speeds, a greater distance is needed to react and stop safely.

C. Feet: Measuring distance in feet can also be problematic, as it is challenging to estimate this distance while driving, and it doesn't account for variations in speed. A larger distance is required to ensure adequate reaction time and safe stopping at higher speeds.

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Why is the Earth’s core so hot? How do Scientists measure its temperature?

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The bottom line here is simply that a large part of the interior of the planet (the outer core) is composed of somewhat impure molten iron alloy. The melting temperature of iron under deep-earth conditions is high, thus providing prima facie evidence that the deep earth is quite hot.

a pendulum clock built to be accurate on earth is then taken to a planet where acceleration due to gravity is 4.20 m/s2. how long will it take the second hand of the clock to make one revolution (in seconds)?

Answers

On the new planet, the second hand of the pendulum clock will take approximately 60.89 seconds to make one revolution. This is slower than on Earth.

To answer this question, we need to understand the relationship between the period of a pendulum clock and the acceleration due to gravity. The formula for the period of a simple pendulum is T = 2π√(L/g), where T is the period, L is the length of the pendulum, and g is the acceleration due to gravity. On Earth, the clock is designed to be accurate, meaning it takes 60 seconds for the second hand to make one revolution. Therefore, we can set up the equation as T₁ = 2π√(L/g₁), where T₁ is 60 seconds and g₁ is Earth's gravity (9.81 m/s²). Solving for L, we can find the length of the pendulum.

Next, we can use this length and the gravity of the new planet to find the period of the pendulum on that planet. We have T₂ = 2π√(L/g₂), where g₂ is the new planet's gravity (4.20 m/s²). Plugging in the values, we can find T₂, the time it takes for the second hand to make one revolution on the new planet.

Calculation steps:
1. On Earth: T₁ = 60 seconds, g₁ = 9.81 m/s²
2. Find L: 60 = 2π√(L/9.81)
3. Solve for L: L ≈ 0.9937 m
4. On the new planet: g₂ = 4.20 m/s²
5. Find T₂: T₂ = 2π√(0.9937/4.20)
6. Solve for T₂: T₂ ≈ 60.89 seconds

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a 0.520 kg mass suspended from a spring oscillates with a period of 1.50 s. how much mass must be added to the object to change the period to 2.10 s?

Answers

To change the period from 1.50 s to 2.10 s, you need to add 0.741 kg to the 0.520 kg mass, making the total mass 1.261 kg.

The period of oscillation for a mass-spring system is given by the formula T = 2π√(m/k), where T is the period, m is the mass, and k is the spring constant. Since the spring constant remains the same, we can write the equation for both cases:
T1 = 2π√(m1/k) and T2 = 2π√((m1+m2)/k)
Dividing the second equation by the first one, we get:
T2/T1 = √((m1+m2)/m1)
Solving for m2, we get:
m2 = m1((T2/T1)^2 - 1)
Plugging in the values: m1 = 0.520 kg, T1 = 1.50 s, and T2 = 2.10 s, we find:
m2 = 0.520((2.10/1.50)^2 - 1) = 0.741 kg
So, 0.741 kg must be added to the 0.520 kg mass to change the period to 2.10 s.

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Estimate the flux (mg/cm2/s) by diffusion of a steroid through a lipid bilayer membrane. You are given that the diffusion coefficient for steroid in the lipid bilayer is 10^-6 cm^2/s, and that the concentration is 1 ng/ml on the outside of the membrane and 0 on the inside. State all your assumptions explicitly. How will the flux change if the steroid is replaced by an antibody (one type of protein drug)? Give a qualitative answer and provide your reasoning.

Answers

The flux by diffusion of the steroid through the lipid bilayer membrane is J = D, or 1 x [tex]10^{-6[/tex] cm/s.

To estimate the flux by diffusion of a steroid through a lipid bilayer membrane, we can use the following equation:

J = D * Cdiff(outside) / (Cinside + Cdiff(outside))

J is the flux, D is the diffusion coefficient, Cdiff(outside) is the concentration of the steroid on the outside of the membrane, and Cinside is the concentration of the steroid inside the membrane.

Assuming that the concentration of the steroid on the outside of the membrane is 1 ng/ml and the concentration inside the membrane is 0, we can substitute these values into the equation for J as follows:

J = D * (1 ng/ml) / (1 ng/ml + 0)

J = D

Therefore, the flux by diffusion of the steroid through the lipid bilayer membrane is J = D, or 1 x [tex]10^{-6[/tex] cm/s.

To qualitatively estimate the effect of replacing the steroid with an antibody on the flux, we can say that if the diffusion coefficient of the antibody is smaller than the diffusion coefficient of the steroid, the new flux will be lower than the old flux. On the other hand, if the diffusion coefficient of the antibody is larger than the diffusion coefficient of the steroid, the new flux will be higher than the old flux.  

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1. Prove these two angular momentum raising/lowering operator relations:j +|j,m) = √(j-m) (j+m+1) |j,m+1)j +|j,m) = √(j+m) (j-m+1) |j,m-1)

Answers

The two angular momentum raising/lowering operator relations:

j+|j, m) = √(j-m)(j+m+1)|j, m+1)

j-|j, m) = √(j+m)(j-m+1)|j, m-1)

To prove these relations, we can start by defining the angular momentum raising and lowering operators as follows:

j+ = jx + ijy

j- = jx - ijy

where jx and jy are the x and y components of the angular momentum operator, respectively, and i is the imaginary unit.

Using these definitions, we can write the following relations:

jx = (j+ + j-)/2

jy = (j+ - j-)/(2i)

Now, let's apply the angular momentum raising operator j+ to the state |j, m), where j is the total angular momentum quantum number and m is its z-component. Using the definition of j+ and jx, we have:

j+|j, m) = (jx + ijy)|j, m)

= [(j+ + j-)/2 + i(j+ - j-)/(2i)]|j, m)

= [(j+ + j- + i(j+ - j-))/2]|j, m)

= [(2jx + i(2jy))/2]|j, m)

= [jx + ijy]|j, m)

= √(j-m)(j+m+1)|j, m+1)

where we have used the fact that jx and jy satisfy the commutation relation [jx, jy] = ijz = imj, and the property of the angular momentum eigenstates that jz|j, m) = m|j, m).

Similarly, we can apply the angular momentum lowering operator j- to the state |j, m) to obtain:

j-|j, m) = (jx - ijy)|j, m)

= [(j+ + j-)/2 - i(j+ - j-)/(2i)]|j, m)

= [(j+ + j- - i(j+ - j-))/2]|j, m)

= [(2jx - i(2jy))/2]|j, m)

= [jx - ijy]|j, m)

= √(j+m)(j-m+1)|j, m-1)

where we have used the same commutation relation and the property of the angular momentum eigenstates.

Thus, we have shown the two angular momentum raising/lowering operator relations:

j+|j, m) = √(j-m)(j+m+1)|j, m+1)

j-|j, m) = √(j+m)(j-m+1)|j, m-1)

which hold for any total angular momentum quantum number j and its z-component m.

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Click on ""show orbits"" and choose an elliptical orbit. Where does an object on an elliptical orbit experience the greatest acceleration?.

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An object on an elliptical orbit experiences the greatest acceleration at its closest point to the central body, known as the periapsis or perihelion.

In an elliptical orbit, the distance between the central body (e.g. a star or a planet) and the orbiting object varies. The orbit has two key points: the periapsis (perihelion when referring to the Sun) and the apoapsis (aphelion when referring to the Sun). The periapsis is the point where the object is closest to the central body, while the apoapsis is the point where it is farthest away.

According to Kepler's Second Law, an object on an elliptical orbit sweeps out equal areas in equal times. This means that the object must move faster when it is closer to the central body (periapsis) and slower when it is farther away (apoapsis). Acceleration is directly related to the gravitational force between the object and the central body, which is stronger when they are closer together. Consequently, the greatest acceleration occurs at the periapsis.

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Two waves on identical strings have frequencies in a ratio of 2 to 1. If their wave speeds are the same, then how do their wavelengths compare?
a. 2:1
b. 1:2
c. 4:1
d. 1:4

Answers

The correct answer is b. 1:2.

Since the wave speeds are the same, we can use the formula v = fλ, where v is the wave speed, f is the frequency, and λ is the wavelength. Rearranging this equation, we get λ = v/f.

Let the wavelength of the first wave be λ1 and the wavelength of the second wave be λ2. We know that the frequencies are in the ratio of 2:1, so let the frequency of the first wave be f and the frequency of the second wave be 2f.

Using the formula above, we get:

λ1 = v/f

λ2 = v/(2f)

Dividing λ2 by λ1, we get:

λ2/λ1 = (v/2f)/(v/f) = 1/2

Therefore, the wavelengths are in a ratio of 1:2, which means that the correct answer is b. 1:2.

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An infrared wave traveling through a vacuum has a frequency of 4. 0 × 1014 hz. What is the wave’s wavelength?.

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The wavelength of the infrared wave traveling through a vacuum with a frequency of 10¹⁴ Hz is 3.0 x 10⁻⁶ meters (or 3.0 micrometers).

To determine the wavelength of an electromagnetic wave, we can use the equation:
speed of light (c) = frequency (f) x wavelength (λ)

In a vacuum, the speed of light is approximately 3.0 x 10⁸ meters per second (m/s). We're given the frequency (f) as 10¹⁴ Hz. Our goal is to find the wavelength (λ).

We can rearrange the equation to solve for the wavelength:
λ = c / f

Now, plug in the given values:
λ = (3.0 x 10⁸ m/s) / (10¹⁴ Hz)
λ = 3.0 x 10⁻⁶ meters

So, the wavelength of the infrared wave traveling through a vacuum with a frequency of 10¹⁴ Hz is 3.0 x 10⁻⁶ meters (or 3.0 micrometers). Infrared waves typically have wavelengths ranging from about 0.7 to 300 micrometers, so this result is within the expected range for infrared radiation.

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problem 10.019.b - quality of steam at turbine exit determine the quality of the steam at the turbine exit. use steam tables. (you must provide an answer before moving on to the next part.) the quality of the steam at the turbine exit is

Answers

The quality of steam at the turbine exit can be determined using steam tables. First, the pressure and temperature of the steam at the turbine exit must be known.

What is temperature?

Temperature is the measure of the amount of heat energy present in a substance or system. It is measured using either the Celsius (°C) or Fahrenheit (°F) scale, and is an important physical quantity in many scientific disciplines. Temperature indicates how hot or cold something is relative to a reference point. It is a measure of the average kinetic energy of the particles in a system, and is closely related to the concept of entropy. Temperature is a macroscopic property, meaning that it is measurable for large numbers of particles. Temperature also affects the rate of many chemical and physical processes, and plays an important role in determining the properties of materials.

Once this information is known, the steam tables can be used to calculate the quality of the steam at the turbine exit. For example, if the pressure is 10 bar and the temperature is 500°C, the quality of the steam is 0.945.

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14) A 6.5-g iron meteor hits the earth at a speed of 295 m/s. If its kinetic energy is entirely converted to heat in the meteor, by how much will its temperature rise? The specific heat of iron is 113 cal/kg ∙ C°, and 1 cal = 4.186 J.
A) 92.0 C°
B) 57,100 C°
C) 0.147 C°
D) 384 C°

Answers

A) The temperature of the 6.5g iron meteor will increase by approximately 92.0°C if all of its kinetic energy, calculated to be 284.6J, is converted to heat.

To solve this problem, we can use the equation:

ΔT = (KE * 1 cal/g°C) / (mass * specific heat * 4.186 J/cal)

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

Mass = 6.5 g = 0.0065 kg

Next, we need to convert the kinetic energy from meters per second to joules:

KE = (1/2) * mass * velocity^2

KE = (1/2) * 0.0065 kg * (295 m/s)^2

KE = 284.6 J

Now we can substitute the values into the equation and solve for ΔT:

ΔT = (284.6 J * 1 cal/g°C) / (0.0065 kg * 113 cal/kg°C * 4.186 J/cal)

ΔT = 92.0°C

Therefore, the temperature of the iron meteor will rise by approximately 92.0°C if its kinetic energy is entirely converted to heat. The answer is (A) 92.0°C.

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A copper ring is attached to a string and allowed to swing as a pendulum between two permanent magnets as shown. The north pole of one magnet faces the south pole of the other magnet. If the magnetic field is directed from the front pole to the back pole, what is the direction of the induced current, if any, as the ring enters the space between the magnetic poles?.

Answers

Therefore, the direction of the induced current will be clockwise as viewed from above.

Based on Faraday's Law of electromagnetic induction, an induced current will be generated in the copper ring as it enters the space between the magnetic poles. The direction of the induced current can be determined using Lenz's Law, which states that the direction of the induced current will be such that it opposes the change in magnetic flux that produced it.

As the copper ring enters the magnetic field, the magnetic flux passing through the ring increases. To oppose this increase in magnetic flux, an induced current will flow in the copper ring in a direction such that it produces a magnetic field that opposes the magnetic field of the permanent magnets. This means that the induced current will flow in a direction that creates a north pole at the front of the copper ring and a south pole at the back of the copper ring.

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Two long straight wires are parallel and carry current in the same direction. The currents are 8.0 and 12 A and the wires are separated by 0.40 cm. The magnetic field in tesla at a point midway between the wires is: A.0 B.4.0 × 10-4 C.8.0 × 10-4 D.12 × 10-4 E.20 × 10-4

Answers

The magnetic field in tesla at a point midway between the wires is: 20 x 10⁻⁴ T.

What is magnetic field?

A magnetic field is a type of energy field that is created by a magnet or an electric current. It is an invisible force that is generated by a magnet or an electric current and is composed of a combination of electric and magnetic forces. It has a strength and direction and exerts a force on any other magnetic material in its vicinity. Magnetic fields are used in a variety of applications, such as in motors, generators, and transportation systems. They can also be used to detect objects and to measure distances.

The magnetic field at a point midway between two parallel wires carrying current in the same direction is given by: B = μ₀ × (I1 + I2) / (2 × π × d)

Where μ₀ is the magnetic constant (4π x 10⁻⁷ Tm⁻¹A⁻¹), I1 and I2 are the

currents in the two wires, and d is the distance between the wires.

Plugging in the given values, we get:

B = 4π x 10⁻⁷ Tm⁻¹A⁻¹ × (8 + 12) / (2 × π × 0.4 cm)

B = 20 x 10⁻⁴ T

Therefore, the answer is E. 20 x 10⁻⁴ T.

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select all the correct answers. what are three reasons why nebulae contribute more to stellar formation than other regions of the universe?

Answers

There are several reasons why nebulae contribute more to stellar formation than other regions of the universe. Some of the correct answers are:1. High concentration of interstellar gas and dust: Nebulae are regions of the interstellar medium (ISM) where the density of gas and dust is much higher than in the average ISM.

This means that there is more material available for gravitational collapse to form new stars.

2. Presence of shock waves and turbulence: Nebulae are often located in regions of active star formation, such as spiral arms of galaxies or giant molecular clouds. These regions are subject to shock waves and turbulence generated by supernovae explosions or the feedback from newly formed stars. This can trigger the collapse of gas clouds and promote the formation of new stars.

3. Cooler temperatures: Nebulae are generally cooler than other regions of the interstellar medium, with temperatures ranging from a few tens to a few hundred Kelvin. This favors the formation of molecular hydrogen (H2), which is the most abundant molecule in the universe and the main fuel for star formation. H2 can only form at low temperatures and high densities, conditions that are often met in nebulae.


1. Abundance of gas and dust: Nebulae contain a higher concentration of gas and dust compared to other regions in the universe. This abundance of materials provides the necessary building blocks for new stars to form.

2. Gravitational collapse: The dense gas and dust within a nebula are drawn together by gravity, causing the material to collapse and form protostars. This process, known as gravitational collapse, is more likely to occur in nebulae than in less dense regions of the universe.

3. Presence of shockwaves: Stellar nurseries within nebulae are often affected by shockwaves from nearby supernovae or the collision of massive gas clouds. These shockwaves can trigger the formation of new stars by compressing the gas and dust within the nebula, initiating gravitational collapse.

In summary, nebulae contribute more to stellar formation than other regions of the universe due to their abundance of gas and dust, gravitational collapse, and the presence of shockwaves that trigger star formation.

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what minimum coefficient of friction is needed between the legs and the ground to keep the sign in the position shown if the chain breaks?

Answers

To determine the minimum coefficient of friction needed between the legs and the ground to keep the sign in the position shown if the chain breaks, we need to consider the forces acting on the sign. When the chain breaks, the weight of the sign (W) will create a torque around the point where the legs touch the ground.

The torque due to the weight of the sign is equal to W multiplied by the distance between the point of contact and the center of gravity of the sign (r).

To prevent the sign from tipping over, the frictional force acting on the legs needs to be greater than or equal to the torque due to the weight of the sign. The frictional force is equal to the coefficient of friction (μ) multiplied by the normal force (N) acting on the legs. The normal force is equal to the weight of the sign (W) plus any additional weight on the legs (if any).

Therefore, the equation for the minimum coefficient of friction needed is:

μ ≥ (W * r) / (W + N)

where N is the normal force acting on the legs.

In order to solve this equation, we need to know the weight of the sign and the distance between the point of contact and the center of gravity of the sign. Once we have those values, we can plug them into the equation and solve for the minimum coefficient of friction needed to prevent the sign from tipping over.

To determine the minimum coefficient of friction needed between the legs and the ground to keep the sign in the position shown if the chain breaks, you need to follow these steps:

1. Calculate the forces acting on the sign, including its weight (gravitational force) and any other external forces (like tension in the chain, if applicable).

2. Determine the torque (rotational force) acting on the sign. Torque can be calculated using the formula torque = force × distance × sin(angle). In this case, you'll need to consider the distances from the legs to the sign's center of mass and the angle between the legs and the ground.

3. Calculate the normal force (the force perpendicular to the ground) acting on the legs. This is usually equal to the weight of the sign.

4. To keep the sign in the position shown, the friction force between the legs and the ground must be sufficient to counteract the torque created by the weight of the sign. Friction force can be calculated using the formula friction force = normal force × coefficient of friction.

5. Use the information from steps 1-4 to solve for the minimum coefficient of friction needed to keep the sign in place. Set the friction force equal to the torque acting on the sign, and solve for the coefficient of friction.

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a 5 volt voltage difference is applied across a resistance of 100 ohms. calculate current in resistor.

Answers

Answer:

Explanation:
U=R×I
I=U/R
I=5/100
I=0.05A

The total magnification achieved using a 10× objective lens with a 10× eyepiece lens is 20×.

Answers

The statement "The total magnification achieved using a 10x objective lens with a 10x eyepiece lens is 20x" is not right.

To calculate the total magnification, you need to multiply the magnification of the objective lens by the magnification of the eyepiece lens.

Step 1: Identify the magnification of the objective lens and the eyepiece lens. In this case, the objective lens has a magnification of 10x, and the eyepiece lens also has a magnification of 10x.

Step 2: Multiply the magnification of the objective lens by the magnification of the eyepiece lens to get the total magnification. In this case, 10x (objective lens) multiplied by 10x (eyepiece lens) equals 100x.

So, the total magnification achieved using a 10x objective lens with a 10x eyepiece lens is 100x, not 20x.

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the change in momentum that occurs when a 1.0 kg ball traveling at 3.0 m/s strikes a wall and bounces back at 2.0 m/s is. (hint: momentum is a vector quantity so be careful of direction).

Answers

The change in momentum when a 1.0 kg ball traveling at 3.0 m/s strikes a wall and bounces back at 2.0 m/s is 5.0 kg·m/s.

Since momentum is a vector quantity, we need to consider the direction of the ball's velocity before and after bouncing.

Before bouncing, the ball has a momentum of (1.0 kg)(3.0 m/s) = 3.0 kg·m/s in one direction.

After bouncing, its momentum is (1.0 kg)(-2.0 m/s) = -2.0 kg·m/s, as the direction changes.

To find the change in momentum, subtract the initial momentum from the final momentum: -2.0 kg·m/s - 3.0 kg·m/s = -5.0 kg·m/s. Since the change in momentum is a scalar quantity, the magnitude is 5.0 kg·m/s.


Summary: The change in momentum of a 1.0 kg ball traveling at 3.0 m/s and bouncing back at 2.0 m/s is 5.0 kg·m/s, taking into account the change in direction.

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a household washing machine connected to a household 237 volt source draws 3 amp of current. what is the power (in watt) being supplied to the washing machine? use exact numbers; do not estimate.

Answers

The power being supplied to the washing machine is 711 watts.

The power (P) being supplied to the washing machine can be calculated using the formula:

P = VI

where,

V is the voltage and

I is the current.

In this case, the voltage is 237 volts and the current is 3 amps, so we have:

P = (237 V) x (3 A)

P = 711 W

Therefore, the power being supplied to the washing machine is 711 watts.

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in a photoelectric effect experiment, light of frequency f and intensity i results in a current for v > 0 of i. if the intensity i is doubled, the current i...

Answers

In a photoelectric effect experiment, light with frequency f and intensity i results in a current for v > 0 of i. If the intensity i is doubled, the main answer is that the current i will also double.


The photoelectric effect is the emission of electrons from a material when light shines on it.

The intensity of light is directly proportional to the number of photons striking the material.

When the intensity is doubled, the number of incident photons also doubles, which increases the number of emitted electrons and ultimately, the current.



Summary: In a photoelectric effect experiment, if the intensity i is doubled, the current i will also double due to the direct proportionality between intensity and emitted electrons.

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Determine the mass of a ball with a wavelength of 3. 45 x 10-34 m and a velocity of 6. 55 m/s.

Answers

The mass of an object cannot be determined solely based on its wavelength and velocity. So the mass of the ball is approximately 2.92 x 10^-31 kg. We would need additional information such as the frequency or energy of the ball.


To determine the mass of a ball with a given wavelength and velocity, we can use the de Broglie wavelength formula:
wavelength = h / (mass * velocity)
where h is the Planck's constant (approximately 6.626 x 10^-34 Js).
In this case, the wavelength is 3.45 x 10^-34 m and the velocity is 6.55 m/s. We can rearrange the formula to solve for mass:
mass = h / (wavelength * velocity)
mass = (6.626 x 10^-34 Js) / ((3.45 x 10^-34 m) * (6.55 m/s))
mass ≈ 2.92 x 10^-31 kg
So the mass of the ball is approximately 2.92 x 10^-31 kg.

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Snell's law is
a) sin r/sin I=μ
b) sin μ/sin l=r
c) sin μ/sin r=i
d) sin i/sin г=μ​

Answers

The correct form of Snell's law is:

a) sin r / sin I = u

where n is the refractive index of the medium.

It relates the angle of incidence I and angle of refraction r of a light ray passing through two media with different refractive indices.

what is the weight on mars (g=3.7m/s2)

Answers

The weight on Mars is determined as 3.7 m (Newtons).

What is the weight of the object on Mars?

The weight of the object on Mars is calculated by applying Newton's second law of motion which states, the force applied to an object is proportional to the product of mass and acceleration of the object.

Mathematically, the formula for Newton's second law of motion is given as;

F = W = mg

where;

F is the applied force on the object due to gravityW is the weight of the object due to gravitym is the mass of the objectg is acceleration due to gravity

For an object with mass, m, the weight on Mars is calculated as follows;

W = 3.7 m (Newtons)

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