A structural plate component of an engineering design must support 207 mpa in tension. If an aluminum alloy is used for this application, what is the largest internal flaw size that this material can support? assume the shape factor is 1 and that for aluminum kic = 25. 6 mpa√m and yield strength is 455 mpa

Answers

Answer 1

To determine the largest internal flaw size that an aluminum alloy can support when used as a structural plate component, we must consider the material's strength and fracture toughness. The fracture toughness is a measure of a material's resistance to crack propagation, and it is characterized by the critical stress intensity factor, KIC.

The equation that relates the critical stress intensity factor to the flaw size is:
KIC = Yσ√a
where Y is the shape factor, σ is the yield strength, and a is the flaw size.

Since the shape factor is assumed to be 1, we can simplify the equation to:
KIC = σ√a
We can rearrange this equation to solve for the largest flaw size:

a = (KIC/σ)^2
Substituting the values given in the problem, we get:
a = (25.6 mpa√m / 455 mpa)^2

a = 0.0004 m^2
Therefore, the largest flaw size that the aluminum alloy can support is 0.0004 square meters.

In summary, the strength and fracture toughness of the aluminum alloy must be considered when designing a structural plate component that must support a certain amount of tension. The critical stress intensity factor and flaw size can be used to determine the maximum load that the material can handle without failure. In this case, the largest flaw size that the aluminum alloy can support is 0.0004 square meters, given its yield strength and fracture toughness.

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Related Questions

What was 15 A pendulum bob has a mass of 1 kg. The length of the pendulum is 2 m. The bob is pulled to one side to an angle of 10° from the vertical. A) What is the velocity of the pendulum bob as it swings through its lowest point? b) What is the angular velocity of the pendulum bob?​

Answers

We get: v = sqrt(2gh) = sqrt(29.812) ≈ 6.26 m/sa). The angular velocity of the pendulum bob is approximately 3.13 rad/s.

At the highest point, the potential energy of the bob is at its maximum, and as it swings down, the potential energy converts to kinetic energy.

At the lowest point, all the potential energy is converted into kinetic energy, so we can use the conservation of energy principle to find the velocity of the pendulum bob at its lowest point.

The potential energy at the highest point is given by mgh, where m is the mass, g is the acceleration due to gravity, and h is the height above the lowest point.

The potential energy at the highest point is equal to the kinetic energy at the lowest point, so we can write: mgh = (1/2)mv^2

where v is the velocity of the pendulum bob at its lowest point. Plugging in the values given, we get: v = sqrt(2gh) = sqrt(29.812) ≈ 6.26 m/s

b) The angular velocity of the pendulum bob is given by ω = v/r, where r is the length of the pendulum. Plugging in the values given, we get: ω = v/r = 6.26/2 ≈ 3.13 rad/s

Therefore, the angular velocity of the pendulum bob is approximately 3.13 rad/s.

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An electron traveling with speed v around a circle of radius r is equivalent to a current of:


evr/2


ev/r


ev/2πr


2πer/v


2πev/r

Answers

The current of an electron traveling with speed v around a circle of radius r is equivalent to ev/(2πr).

An electron traveling with speed v around a circle of radius r is equivalent to a current. To calculate the current, we need to consider the charge of an electron (e) and the time it takes for one complete revolution (T).

First, find the circumference of the circle (C):
C = 2πr

Next, calculate the time for one revolution (T) by dividing the circumference by the speed of the electron:
T = C/v = (2πr)/v

Now, we know that current (I) is defined as the charge (Q) passing through a conductor per unit time (t):
I = Q/t

Since there's only one electron, the charge Q is simply the charge of an electron (e). Substitute the values of Q and T in the formula:

I = e/T = e/[(2πr)/v]

Simplify the expression:
I = ev/(2πr)

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What is the torque exerted by the wrench in scenario c?

What is the torque exerted by the wrench in scenario d?

If you've figured out all of the torques correctly, then you can clearly see that the scenario with the highest torque is:

Answers

The torque exerted by the wrench in scenario (c) and (d) is 'LF'. The torque exerted by the wrench in all the four scenario are same, so there is no such scenario of having the highest torque.

We know, Torque is the cross product of radius vector and force vector. It is defined as turning force that tends to cause rotation around any axis. It is also referred to as the 'Moment of Force'.

Mathematically,

Torque, ζ = r × F = r F sinθ

In case (a.),

The force vector is perpendicular to the radius vector (or the length) i.e., θ = 90°

∴ ζ = r × F = L × F = LF

In case (b.)

F is at an angle with horizontal, then only the vertical component of force that is 2Fsinθ will contribute to the torque.

∴  ζ = r × 2Fsin30° = L × 2F × (1/2) = LF

In case (c.),

The force vector is perpendicular to the radius vector i.e., θ = 90°

∴  ζ = r × F = 2L × (F/2) = LF

In case (d.),

Again the force vector is perpendicular to the radius vector (or the length) i.e., θ = 90°

∴  ζ = r × F = (L/2) × 2F = LF

Therefore, torque exerted by wrench in all scenario is same i.e., LF.

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an electrolytic cell is defined as: group of answer choices a cell in which a nonspontaneous reaction produces an electric current a cell in which an electric current drives a nonspontaneous reaction no correct answer a cell in which a spontaneous reaction produces an electric current a cell in which an electric current drives a spontaneous reaction

Answers

An electrolytic cell is defined as a cell in which an electric current drives a nonspontaneous reaction. The correct answer is B)

An electrolytic cell is a type of electrochemical cell that uses electrical energy to drive a nonspontaneous chemical reaction. In contrast to a galvanic cell, where a spontaneous chemical reaction produces an electric current, an electrolytic cell uses an external power source to drive an otherwise nonspontaneous reaction.

In an electrolytic cell, a voltage is applied to the electrodes, causing electrons to flow from the anode to the cathode. The anode is the electrode where oxidation occurs, and the cathode is the electrode where reduction occurs.

The electrical energy is used to force the nonspontaneous reaction to occur, with the electrode reactions being driven in the opposite direction to their natural direction.

The process of electrolysis is used in a wide range of industrial applications, such as the production of aluminum, chlorine, and sodium hydroxide. It is also used in electroplating and in the purification of metals.

The correct answer is B)

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Six spaceships with rest lengths L0 zoom past an intergalactic speed trap. The officer on duty records the speed of each ship, v. (No ship is going in excess of the stated speed limit of c , so she doesn’t have to pull anyone over for a ticket. )

Answers

The speeds of the six spaceships will be recorded differently by observers in different frames of reference, and their recorded speeds will depend on their relative positions and orientations to the observer.

According to Einstein's theory of relativity, the speed of an object is not an absolute quantity but is relative to the observer's frame of reference. In the case of the six spaceships, as they zoom past the intergalactic speed trap, their speeds will be recorded differently by an observer in different frames of reference.

Assuming the observer is at rest with respect to the speed trap, the speeds of the spaceships can be calculated using the formula [tex]$v = c \left(\sqrt{1-\left(\frac{L_0}{L}\right)^2}\right)$[/tex], where c is the speed of light, L0 is the rest length of the spaceship, and L is the length of the spaceship as measured by the observer.

Therefore, the recorded speeds will depend on the observer's position relative to the direction of the spaceship's motion. If the observer is directly in front of the spaceships, the lengths of the spaceships will be contracted, and their speeds will appear higher than if the observer was behind them.

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A 30 kg block with velocity 50 m/s is encountering a constant 8 N friction force. What is the momentum of the block after 15 seconds?

Answers

The momentum of a 30 kg block with an initial velocity of 50 m/s encountering a constant 8 N friction force and traveling for 15 seconds is 1680 kg m/s.

The initial momentum of the block is given by:

p = mv = (30 kg) x (50 m/s) = 1500 kg m/s

The net force acting on the block is given by the force of friction:

[tex]F_{net} = F_{friction} = 8 N[/tex]

Using Newton's second law, we can find the acceleration of the block:

[tex]F_{net} = ma[/tex]

8 N = (30 kg) a

[tex]a = 8/30 m/s^2[/tex]

Using the equation for displacement with constant acceleration, we can find the distance traveled by the block during the 15 seconds:

[tex]d = vt + 1/2 at^2[/tex]

[tex]d = (50 m/s)(15 s) + 1/2 (8/30 m/s^2)(15 s)^2[/tex]

d = 750 m + 450 m = 1200 m

Finally, using the equation for final velocity with constant acceleration, we can find the final velocity of the block:

[tex]v_{f^2} = v_{i^2} + 2ad[/tex]

[tex]v_{f^2} = (50 m/s)^2 + 2(8/30 m/s^2)(1200 m)[/tex]

[tex]v_{f^2} = 2500 \;m^2/s^2 + 640 \;m^2/s^2 = 3140\; m^2/s^2[/tex]

[tex]v_f[/tex] = 56.0 m/s

Therefore, the momentum of the block after 15 seconds is:

p = mv = (30 kg)(56.0 m/s) = 1680 kg m/s

In summary, the momentum of a 30 kg block with an initial velocity of 50 m/s encountering a constant 8 N friction force and traveling for 15 seconds is 1680 kg m/s.

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If three crests pass Pin in one second, the wavelength is?

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The wavelength of the wave as we have it is 3m

What is the wavelength of a wave?

A wave's wavelength is the separation between two successive locations on the wave that are in phase, or at the same stage of their cycle. In other terms, it is the separation between two wave crests or troughs.

We know that the wavelength = Number of crests = 3m

Wave speed = 3 m/s

We would then have that;

v = λf

v = wave speed

f = frequency

λ = wavelength

Thus since there are three crests then the wavelength must be 3m

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A pendulum is constructed from a thin, rigid, and uniform rod with a small sphere attached to the end opposite the pivot. This arrangement is a good approximation to a simple pendulum (period = 0. 65 s), because the mass of the sphere (lead) is much greater than the mass of the rod (aluminum). When the sphere is removed, the pendulum no longer is a simple pendulum, but is then a physical pendulum. What is the period of the physical pendulum?

Answers

The period of a physical pendulum depends on its mass distribution and can be calculated using the moment of inertia. The equation for the period takes into account the mass, length, radius, and distance between the pivot and center of mass.

A physical pendulum is a type of pendulum in which the mass is distributed along the length of the pendulum, and its period depends on the distribution of the mass.

To find the period of the physical pendulum, we need to consider the moment of inertia of the system, which is given by the sum of the moment of inertia of the rod and the moment of inertia of the sphere about the pivot.

Assuming that the length of the rod is much greater than the radius of the sphere, we can approximate the moment of inertia of the rod as [tex](1/3)ml^2[/tex], where m is the mass of the rod and l is its length. The moment of inertia of the sphere about the pivot is [tex](2/5)mR^2[/tex], where R is the radius of the sphere.

Using the parallel axis theorem, we can find the moment of inertia of the system about the pivot as [tex](1/3)ml^2 + (2/5)mR^2 + md^2[/tex], where d is the distance between the pivot and the center of mass of the system.

The period of the physical pendulum is given by [tex]T = 2\pi \sqrt{(I/mgd)}[/tex], where g is the acceleration due to gravity.

Thus, the period of the physical pendulum depends on the distribution of the mass, and it cannot be determined without knowing the values of m, l, R, and d.

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Particles q1, 92, and q3 are in a straight line.
particles q1 = -1.60 x 10-19 c, 92 = +1.60 x 10-19 c,
and q3 = -1.60 x 10-19 c. particles 91 and q2 are
separated by 0.001 m. particles q2 and q3 are
separated by 0.001 m. what is the net force on 92?
remember: negative forces (-f) will point left
positive forces (+f) will point right
-1.60 x 10-19 c
+1.60 x 10-19
-1.60 x 10-19 c
91
+ 92
93
0.001 m
0.001 m

Answers

The net force on particle q₂ is approximately 4.60 x 10⁻¹⁴ N to the right.

To find the net force on particle q₂, we need to calculate the electric force that each of the other particles exerts on it and add them up vectorially.

The electric force between two point charges is given by Coulomb's law

F = k × q₁ × q₂ / r²

where F is the electric force in Newtons, k is Coulomb's constant (9 x 10⁹ N m² / C²), q₁ and q₂ are the magnitudes of the charges in Coulombs, and r is the distance between the charges in meters.

Let's first calculate the force that particle q₁ exerts on particle q₂. The magnitude of the electric force between them is:

F1 = k × |q₁| × |q₂| / r² = (9 x 10⁹ N m² / C²) × (1.60 x 10⁻¹⁹ C) × (1.60 x 10⁻¹⁹ C) / (0.001 m)² ≈ 2.30 x 10⁻¹⁴ N

The direction of the force is to the left, because particles q₁ and q₂ have opposite charges.

Now let's calculate the force that particle  exerts on particle q₃. The magnitude of the electric force between them is the same as the magnitude of the force between particles q₁ and q₂

F2 = k × |q₂| × |q₃| / r₂ = (9 x 10⁹ N m² / C²) x (1.60 x 10⁻¹⁹ C) x (1.60 x 10⁻¹⁹ C) / (0.001 m)² ≈ 2.30 x 10⁻¹⁴ N

The direction of the force is to the right, because particles q₂ and q₃ have opposite charges.

Finally, we can calculate the net force on particle q₂ by subtracting the force to the left from the force to the right

Fnet = F2 - F1 ≈ 4.60 x 10¹⁴ N to the right

Therefore, the net force on particle q₂ is approximately 4.60 x 10⁻¹⁴ N to the right.

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You can hold a box against a rough wall and prevent it from slipping doen by pressing hard horizontally. if the coefficient os static friction is 0.35 and the box has a mass of 14.2 kg, what minimum force f will keep thebox from falling

Answers

The minimum force required to keep the box from falling is 48.71 N.

The minimum force required to keep the box from falling can be calculated using the formula F = μsN, where F is the minimum force required, μs is the coefficient of static friction, and N is the normal force acting on the box.

In this case, the normal force is equal to the weight of the box, which can be calculated using the formula N = mg,

where m is the mass of the box and g is the acceleration due to gravity.

Thus, N = 14.2 kg x 9.8 m/s^2 = 139.16 N.

Substituting the values into the formula,

we get F = 0.35 x 139.16 N = 48.71 N.

Therefore, a minimum force of 48.71 N is required to prevent the box from falling.

This force is determined by the coefficient of static friction and the weight of the box. The coefficient of static friction is a measure of the friction between two surfaces that are not moving relative to each other, while the weight of the box is a measure of the force due to gravity acting on the box.

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The stress on a wire that support a load depend on?​

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The stress on a wire that supports a load depends on the weight of the load and the cross-sectional area of the wire.

The stress is defined as the amount of force per unit area, so a larger load or a smaller wire cross-sectional area will result in a higher stress on the wire.

In addition to these factors, the material properties of the wire are also important in determining the stress. Different materials have different strengths and may behave differently under stress.

For example, a wire made of a brittle material may fail suddenly under stress, while a wire made of a ductile material may bend or deform before breaking.

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physicist s. a. goudsmit devised a method for measuring accurately the masses of heavy ions by timing their periods of revolution in a known magnetic field. a singly charged ion makes 6.00 rev in a 40.0 mt in 1.32 ms. calculate its mass, in atomic mass units.

Answers

A singly charged ion makes 6.00 rev in a 40.0 mt in 1.32 ms. The atomic mass of the singly charged ion is 24.3 atomic mass units

Physicist S.A. Goudsmit devised a method for accurately measuring the masses of heavy ions by timing their periods of revolution in a known magnetic field. This method is known as the magnetic moment method. It involves the use of a magnetic field to deflect the ion in a circular path, and measuring the time it takes for the ion to complete a full revolution. The mass of the ion can then be calculated from its charge, the magnetic field strength, and the time taken for one revolution.

In this case, we are given that a singly charged ion makes 6.00 revolutions in a magnetic field of 40.0 millitesla in 1.32 milliseconds. To calculate its mass in atomic mass units (amu), we can use the formula:

mass = (charge x magnetic field x period) / (2 x pi)

where charge is the charge of the ion (in Coulombs), magnetic field is the strength of the magnetic field (in Tesla), period is the time taken for one revolution (in seconds), and pi is the mathematical constant pi.

Since the ion is singly charged, its charge is 1.6 x 10^-19 C. Converting the magnetic field from millitesla to Tesla, we get 0.04 T. Converting the period from milliseconds to seconds, we get 0.00132 s. Plugging in these values, we get:

mass = (1.6 x 10^-19 C x 0.04 T x 0.00132 s) / (2 x pi) = 4.04 x 10^-26 kg

To convert this mass to atomic mass units, we divide by the mass of one atomic mass unit (1.66 x 10^-27 kg/amu):

mass in amu = (4.04 x 10^-26 kg) / (1.66 x 10^-27 kg/amu) = 24.3 amu

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what would have to be the mass of this asteroid, in terms of the earth's mass m , for the day to become 28.0% longer than it presently is as a result of the collision? assume that the asteroid is very small compared to the earth and that the earth is uniform throughout.

Answers

The mass of the asteroid would have to be 0.39 times the mass of the Earth for the day to become 28.0% longer.

When an asteroid collides with the Earth, it can change the planet's rotational speed and affect the length of the day. To determine the mass of the asteroid that would cause the day to become 28.0% longer, we can use the principle of conservation of angular momentum.

Angular momentum is given by the product of the moment of inertia and angular velocity. Since the moment of inertia of the Earth remains constant, any change in the Earth's rotational speed must be due to a change in its angular velocity. Therefore, we can write:

I₁ω₁ = I₂ω₂

where I₁ and ω₁ are the initial moment of inertia and angular velocity of the Earth, and I₂ and ω₂ are the final moment of inertia and angular velocity of the Earth after the collision.

If the day becomes 28.0% longer, then the new angular velocity of the Earth is 0.72 times the original angular velocity. Therefore, we can write:

I₁ω₁ = I₂(0.72ω₁)

Solving for I₂ in terms of the Earth's mass m, we get:

I₂ = (1 + m)I₁

Substituting this into the previous equation and simplifying, we get:

m = (0.28/0.72) - 1 = 0.39

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Bina goes downstairs to her basement, does 20 pushups and 20 squats, and then returns upstairs. which of these activities involves concentric contractions?

Answers

These activities involves concentric contractions: doing pushups and doing squats. The correct option is B and D

Concentric contractions occur when a muscle shortens as it generates force. In Bina's case, both doing pushups and doing squats involve concentric contractions. When she performs pushups, the concentric phase occurs as she pushes her body up from the ground, causing her chest and triceps muscles to shorten.

Similarly, when doing squats, the concentric contraction happens when she rises from the squat position, causing her quadriceps and gluteal muscles to shorten. On the other hand, going downstairs  and going upstairs  mainly involve eccentric contractions, where the muscle lengthens while generating force.

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Complete question:

Bina goes downstairs to her basement, does 20 pushups and 20 squats, and then returns upstairs. which of these activities involves concentric contractions?

a. going downstairs

b. doing pushups

c. going upstairs

d. doing squats

Recently scientist have managed to indirectly observe a super massive black hole in the center of our galaxy. using your imagination and what we have discussed in class, what do you imagine it’ll be like on the other side of the event horizon?

Answers

Based on scientific understanding, the other side of the event horizon of a supermassive black hole, like the one at the center of our galaxy, is expected to be an extremely high-gravity region where space and time are significantly distorted.

Beyond the event horizon, matter is inexorably pulled towards the singularity, which is a point of infinite density. Unfortunately, our current understanding of physics does not allow us to predict what lies beyond the singularity or inside the black hole.

Based on our current understanding of general relativity, the theory proposed by Albert Einstein to describe gravity, the other side of the event horizon of a supermassive black hole is expected to be an incredibly high-gravity region.

Space and time become significantly distorted in this region, leading to unusual phenomena such as the stretching of space and the slowing of time. These effects are a consequence of the intense gravitational field near the black hole.

Inside the event horizon, matter and energy are inexorably pulled towards the black hole's singularity. The singularity is a point of infinite density, where the mass of the black hole is concentrated. At the singularity, our current understanding of physics breaks down, and the laws of physics as we know them no longer apply.

This is primarily because the tremendous gravitational forces and the extreme conditions near the singularity require a theory of quantum gravity to accurately describe them.

Unfortunately, such a theory currently eludes scientists, and our understanding of what lies beyond the singularity remains limited.

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Titan, with a radius of 2. 58 x 10^6 m, is the largest moon of the planet Saturn. If the mass of Titan is 1. 35 x10^23 kg, what is the acceleration due to gravity on the surface of this moon?

A. 1. 35 m/s^2
B. 3. 49 m/s^2
C. 3. 49 x 10^6 m/s^2
D. 1. 35 x 10^6 m/s^2

Answers

The acceleration due to gravity on the surface of Titan can be calculated using the formula g = GM/[tex]R^{2}[/tex], where G is the gravitational constant, M is the mass of the moon, and R is the radius of the moon. Therefore, the correct answer is B.

Plugging in the given values, we get g = (6.67 x [tex]10^{-11}[/tex] [tex]Nm^{2}/kg^{2}[/tex])(1.35 x [tex]10^{23}[/tex] kg)/[tex](2.58* 10^{6}m)^{2}[/tex] = 3.49 [tex]m/s^{2}[/tex].

This means that an object on the surface of Titan would experience a gravitational acceleration of 3.49 [tex]m/s^{2}[/tex], which is about one-seventh of the acceleration due to gravity on Earth.

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A certain one-dimensional conservative force is given as a function of x by the expression F = -kx^3, where F is in newtons and x is in meters. A possible potential energy function U for this force is

Answers

Answer:

Choice D

Explanation:

F(x) = -kx^3

Integrate F(x) with respect to x:

U(x) = - ∫ F(x) dx

= - ∫ (-kx^3) dx

= k/4 * x^4 + C

C is a constant of integration. Find C by specifying the potential energy at a particular value of x. To make it easy, assume that U = 0  at x = 0:

U(0) = k/4 * 0^4 + C = 0

C = 0

Therefore, the potential energy function for the given force F = -kx^3 is:

U(x) = k/4 * x^4

Choice D:  U = [tex]\frac{1}{4}[/tex]kx⁴

A ball drops some distance through the air, gaining 20 j of kinetic energy while experiencing some air resistance. how much gravitational potential energy did the ball lose

Answers

The ball lost gravitational potential energy equal to the amount of kinetic energy it gained while falling, but some of that energy was dissipated due to air resistance.

When an object falls from a height, its potential energy is converted into kinetic energy. In this case, the ball gains 20 J of kinetic energy while falling, indicating that it has lost an equivalent amount of potential energy due to gravity.

However, the presence of air resistance complicates the situation. As the ball falls, it experiences a force opposing its motion due to the air molecules it collides with. This force causes some of the ball's energy to be dissipated in the form of heat, sound, and other forms of energy.

Therefore, to determine how much gravitational potential energy the ball lost, we need to take into account the amount of energy that was dissipated by air resistance. This is difficult to quantify without additional information about the ball's mass, velocity, and the nature of the air resistance it experienced.

In summary, the ball lost gravitational potential energy equal to the amount of kinetic energy it gained while falling, but some of that energy was dissipated due to air resistance. The exact amount of energy lost to air resistance would require additional information and calculations.

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Microwaves can be used to cook food. If a microwave


oven uses waves that are 1 cm (0. 01 m) long, what is the


frequency of these waves?

Answers

Microwaves can be used to cook food. If a microwave oven uses waves that are 1 cm (0. 01 m) long then 3.00 x [tex]10^{10}[/tex] Hz is the frequency of these waves.

The speed of electromagnetic waves (such as microwaves) in a vacuum is approximately 3.00 x [tex]10^{8}[/tex] m/s.

The frequency of a wave is given by the formula

f = c / λ

Where f is the frequency, c is the speed of light, and λ is the wavelength.

In this case, the wavelength is 0.01 m, so we can calculate the frequency as

f = 3.00 x [tex]10^{8}[/tex] / 0.01 = 3.00 x [tex]10^{10}[/tex] Hz

Therefore, the frequency of the microwave waves is approximately 3.00 x [tex]10^{10}[/tex] Hz.

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A woman of mass 50 kg runs up a 300m high hill in 5 min. Her power is:
a) 150 W
b) 500 W
c) 100 W
d) 50 W
e) 300 J

Answers

Answer: We can use the formula for power:

Power = Work / Time

To find the work done by the woman, we can use the formula:

Work = Force x Distance

where Force = mass x acceleration, and acceleration = gravity = 9.8 m/s^2

Force = mass x acceleration = 50 kg x 9.8 m/s^2 = 490 N

Distance = 300 m

So, Work = Force x Distance = 490 N x 300 m = 147,000 J

Converting the time of 5 min to seconds, we get:

Time = 5 min x 60 s/min = 300 s

Now, we can calculate the power:

Power = Work / Time = 147,000 J / 300 s = 490 W

Therefore, the woman's power is 490 W (option b).

Explanation:

Answer:

Her power is 50 W

Explanation:

This is because formula for power is (mass*length[in meters])/time[in seconds]

on applying it we get

50kg*300m/300sec = 50 W

Which two statements describe what happens to the nuclei of atoms during a fusion reaction

Answers

During a fusion reaction, two statements that describe what happens to the nuclei of atoms are A small amount of mass in the nuclei that combine is converted to energy and Nuclei with small masses combine to form nuclei with larger masses.​ The correct option is B and D.


A small amount of mass in the nuclei that combine is converted to energy. During the fusion reaction, when the smaller nuclei combine, a small amount of mass is converted into a significant amount of energy, as described by Einstein's famous equation E=mc². This energy release is what makes fusion reactions so powerful and a potential source of clean energy.

Nuclei with small masses combine to form nuclei with larger masses. In a fusion reaction, lighter nuclei, typically isotopes of hydrogen like deuterium and tritium, combine under high pressure and temperature to form larger nuclei, such as helium. This process is what powers the Sun and other stars, as they fuse hydrogen into helium, releasing energy in the form of light and heat. The correct option is B and D.

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Complete question:

Which two statements describe what happens to the nuclei of atoms during a fusion reaction?

A. Large nuclei break apart into two or more smaller nuclei.

B. A small amount of mass in the nuclei that combine is converted to energy.

C. Each nucleus formed has fewer protons than each original nucleus had.

D. Nuclei with small masses combine to form nuclei with larger masses.​

Running with an initial velocity of 10.2 m/s m / s , a horse has an average acceleration of -1.77 m/s2 m / s 2 . how much time does it take for the horse to decrease its velocity to 6.1 m/s m / s ?

Answers

It takes approximately 2.32 seconds for the horse to decrease its velocity to 6.1 m/s.

Using the given terms, we can solve the problem using the formula for acceleration:

a = (v_f - v_i) / t

Where:
a = -1.77 m/s² (average acceleration)
v_i = 10.2 m/s (initial velocity)
v_f = 6.1 m/s (final velocity)
t = time (which we need to find)

Rearranging the formula to solve for time:

t = (v_f - v_i) / a

Substituting the given values:

t = (6.1 m/s - 10.2 m/s) / (-1.77 m/s²)
t = (-4.1 m/s) / (-1.77 m/s²)

Now, calculating the time:

t ≈ 2.32 seconds

It takes approximately 2.32 seconds for the horse to decrease its velocity to 6.1 m/s.

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How much work is done on a block if a 20-N forces is applied to push the block across a frictional surface at constant speed for a displacement of 5. 0 m to the right

Answers

The work done on the block is W = (20 N)(5.0 m)(1) = 100 J.

If the block is moving at a constant speed, then the net force acting on it must be zero. The force of friction acting on the block must therefore be equal in magnitude and opposite in direction to the applied force.

Since the force of friction is opposing the motion of the block, the work done by the force of friction is negative. The work done by the applied force is positive.

The formula for work is given by W = Fd cos(theta), where W is the work done, F is the force applied, d is the displacement of the object, and theta is the angle between the force and the displacement.

In this case, the angle between the force and the displacement is 0 degrees (since the force is applied in the same direction as the displacement), so cos(theta) = 1.

Thus, the work done on the block is W = (20 N)(5.0 m)(1) = 100 J.

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PROBLEM SOLVING


1. An electron is traveling to the north with a speed of 3. 5 x 106 m/s when a magnetic field is turned on. The strength of the magnetic field is 0. 030 T, and it is directed to the left. What will be the direction and magnitude of the magnetic force?



2. The Earth's magnetic field is approximately 5. 9 × 10-5 T. If an electron is travelling perpendicular to the field at 2. 0 × 105 m/s, what is the magnetic force on the electron?



3. A charged particle of q=4μC moves through a uniform magnetic field of B=100 F with velocity 2 x 103 m/s. The angle between 30o. Find the magnitude of the force acting on the charge.



4. A circular loop of area 5 x 10-2m2 rotates in a uniform magnetic field of 0. 2 T. If the loop rotates about its diameter which is perpendicular to the magnetic field, what will be the magnetic flux?

Answers

The magnitude of the magnetic force on the electron is 1.47 x 10⁻¹⁴ N, directed toward the west.

The magnitude of the magnetic force on the electron is 1.88 x 10⁻¹⁴ N.

1. The direction of the magnetic force on the electron can be found using the right-hand rule. If the electron is moving north and the magnetic field is directed to the left, then the force will be directed toward the west. The magnitude of the magnetic force can be calculated using the formula F = qvBsinθ, where q is the charge of the electron, v is its velocity, B is the strength of the magnetic field, and θ is the angle between the velocity and the magnetic field.

In this case, the angle is 90 degrees (since the velocity and magnetic field are perpendicular), so sinθ = 1. Plugging in the values, we get:

F = (1.6 x 10⁻¹⁹ C)(3.5 x 10⁶ m/s)(0.030 T)(1)

  = 1.47 x 10⁻¹⁴ N

As a result, the magnetic field on the electron is 1.47 x 10⁻¹⁴ N and is directed westward.

2. The magnetic force on the electron can be calculated using the same formula as above, F = qvBsinθ. In this case, the velocity of the electron is perpendicular to the magnetic field, so θ = 90 degrees and sinθ = 1. Plugging in the values, we get:

F = (1.6 x 10⁻¹⁹ C)(2.0 x 10⁵ m/s)(5.9 x 10⁻⁵ T)(1)

  = 1.88 x 10⁻¹⁴ N

As a result, the magnetic force on the electron is 1.88 x 10⁻¹⁴ N.

3. The magnitude of the force on the charged particle can be calculated using the formula F = qvBsinθ, where q is the charge of the particle, v is its velocity, B is the strength of the magnetic field, and θ is the angle between the velocity and the magnetic field.

In this case, the angle is 30 degrees, so sinθ = 0.5. Plugging in the values, we get:

F = (4 x 10⁻⁶ C)(2 x 10³ m/s)(100 T)(0.5)

   = 4 x 10⁻¹ N

Therefore, the magnitude of the force on the charged particle is 0.4 N.

4. The magnetic flux through the loop can be calculated using the formula Φ = BAcosθ, where B is the strength of the magnetic field, A is the area of the loop, and θ is the angle between the magnetic field and the normal to the loop.

In this case, the magnetic field is perpendicular to the plane of the loop, so θ = 90 degrees and cosθ = 0. Plugging in the values, we get:

Φ = (0.2 T)(5 x 10⁻² m²)(0)

    = 0

Therefore, the magnetic flux through the loop is zero.

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The magnitude of the magnetic force on the electron is 1.47 x 10⁻¹⁴ N, directed toward the west.

The magnitude of the magnetic force on the electron is 1.88 x 10⁻¹⁴ N.

What is  Magnetic field?

A magnetic field is a force field that surrounds a magnet or a current-carrying conductor. It is a field of force that affects the behavior of charged particles, such as electrons and protons, and other magnetic materials in the vicinity of the magnet or conductor.

1. The direction of the magnetic force on the electron can be found using the right-hand rule. If the electron is moving north and the magnetic field is directed to the left, then the force will be directed toward the west. The magnitude of the magnetic force can be calculated using the formula F = qvBsinθ, where q is the charge of the electron, v is its velocity, B is the strength of the magnetic field, and θ is the angle between the velocity and the magnetic field.

In this case, the angle is 90 degrees (since the velocity and magnetic field are perpendicular), so sinθ = 1. Plugging in the values, we get:

F = (1.6 x 10⁻¹⁹ C)(3.5 x 10⁶ m/s)(0.030 T)(1)

 = 1.47 x 10⁻¹⁴ N

As a result, the magnetic field on the electron is 1.47 x 10⁻¹⁴ N and is directed westward.

2. The magnetic force on the electron can be calculated using the same formula as above, F = qvBsinθ. In this case, the velocity of the electron is perpendicular to the magnetic field, so θ = 90 degrees and sinθ = 1. Plugging in the values, we get:

F = (1.6 x 10⁻¹⁹ C)(2.0 x 10⁵ m/s)(5.9 x 10⁻⁵ T)(1)

 = 1.88 x 10⁻¹⁴ N

As a result, the magnetic force on the electron is 1.88 x 10⁻¹⁴ N.

3. The magnitude of the force on the charged particle can be calculated using the formula F = qvBsinθ, where q is the charge of the particle, v is its velocity, B is the strength of the magnetic field, and θ is the angle between the velocity and the magnetic field.

In this case, the angle is 30 degrees, so sinθ = 0.5. Plugging in the values, we get:

F = (4 x 10⁻⁶ C)(2 x 10³ m/s)(100 T)(0.5)

  = 4 x 10⁻¹ N

Therefore, the magnitude of the force on the charged particle is 0.4 N.

4. The magnetic flux through the loop can be calculated using the formula Φ = BAcosθ, where B is the strength of the magnetic field, A is the area of the loop, and θ is the angle between the magnetic field and the normal to the loop.

In this case, the magnetic field is perpendicular to the plane of the loop, so θ = 90 degrees and cosθ = 0. Plugging in the values, we get:

Φ = (0.2 T)(5 x 10⁻² m²)(0)

   = 0

Therefore, the magnetic flux through the loop is zero.

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The diffraction grating has 50 slots per millimeter. At what angle is


the maximum of the first row seen when a wavelength of 400 nm


falls perpendicular to the grid?



Please I really need your help

Answers

The maximum of the first order is seen at an angle of approximately 0.001143 degrees.

To find the angle of the maximum of the first order for a diffraction grating, you can use the grating equation:

nλ = d * sin(θ)

where n is the order of the maximum (in this case, n=1 for the first order), λ is the wavelength, d is the distance between the slots (grating spacing), and θ is the angle we need to find.

First, we need to find the grating spacing (d). Since there are 50 slots per millimeter, the spacing would be:

d = 1 mm / 50 slots = 0.02 mm

We should convert this to meters for consistency with the wavelength unit (nm):

d = 0.02 mm * (1 m / 1000 mm) = 0.00002 m

Now, plug in the values into the grating equation:

(1)(400 * 10^(-9) m) = (0.00002 m) * sin(θ)

Divide both sides by 0.00002 m:

(400 * 10^(-9) m) / (0.00002 m) = sin(θ)

20 * 10^(-6) = sin(θ)

Now, find the angle θ by taking the inverse sine:

θ = arcsin(20 * 10^(-6))
θ ≈ 0.001143 degrees

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The fact that the galaxies are rotating at about the same velocity from the center to the edge as opposed to faster near the centers is evidence that.
a. There must be more gravity than that calculated from normal Mass
b. They are rotating slower over time
c. Dark energy is pulling on them
d. They are measuring the velocities incorrectly ​

Answers

The fact that galaxies are rotating at about the same velocity from the center to the edge, as opposed to faster near the centers, is evidence that there must be more gravity than that calculated from normal mass.

This observation suggests the presence of dark matter, which contributes to the overall gravitational force in galaxies.

However, observations have shown that the rotation curves of many galaxies remain nearly flat, indicating that the orbital velocities do not decrease as expected.

Instead, they remain roughly constant or increase slightly with distance from the galactic center. This phenomenon is often referred to as the "galaxy rotation problem."

To account for these unexpected rotation curves, astronomers have proposed the existence of dark matter. Dark matter is a hypothetical form of matter that does not interact with light or other forms of electromagnetic radiation, making it invisible and difficult to detect directly.

It is thought to be present in large quantities throughout the universe, including within galaxies.

The presence of dark matter can explain the observed rotation curves because it contributes additional gravitational force to galaxies. This extra gravity from the dark matter allows stars and gas to orbit at higher velocities, even at larger distances from the galactic center.

In other words, the gravitational pull from the combined normal matter (stars, gas, etc.) and dark matter is what keeps the rotation curves flat or rising.

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A pen contains a spring with a constant of 216 N/m. When the tip of the pen is in its retracted position, the spring is compressed 4.10 mm from its unstrained length. In order to push the tip out and lock it into its writing position, the spring must be compressed an additional 6.10 mm. How much work is done by the spring force to ready the pen for writing? Be sure to include the proper algebraic sign with your answer.

Answers

Answer:The spring force is conservative, so the work done by the spring force is equal to the negative of the potential energy stored in the spring:

U = -1/2 k x^2

where k is the spring constant and x is the displacement from the unstrained length.

The initial compression of the spring is 4.10 mm = 0.00410 m, and the additional compression is 6.10 mm = 0.00610 m. The total compression of the spring is therefore x = 0.00410 m + 0.00610 m = 0.0102 m.

The potential energy stored in the spring when it is compressed by a distance x is:

U = -1/2 k x^2

Substituting the given values, we get:

U = -1/2 (216 N/m) (0.0102 m)^2

U = -0.0112 J

The work done by the spring force to ready the pen for writing is equal to the change in potential energy:

W = U_final - U_initial

where U_initial is the potential energy of the spring when it is compressed 4.10 mm, and U_final is the potential energy of the spring when it is compressed an additional 6.10 mm.

U_initial = -1/2 (216 N/m) (0.00410 m)^2 = -0.000090 J

U_final = -1/2 (216 N/m) (0.0102 m)^2 = -0.0112 J

W = U_final - U_initial

W = (-0.0112 J) - (-0.000090 J)

W = -0.0111 J

The negative sign indicates that the work done by the spring force is done on the pen (i.e. the pen gains potential energy), consistent with our intuition that the spring force is providing the energy needed to push the pen tip out and lock it into place. Therefore, the proper algebraic sign for the work done by the spring force is negative.

Explanation:

27. A bicycle wheel on a repair bench can be


accelerated either by pulling on the chain that


is on the gear or by pulling on a string wrapped


around the tire. The tire's radius is 0. 38 m, while


the radius of the gear is 0. 14 m. What force would


you need to pull on the string to produce the


same acceleration you obtained with a force of


15 N on the chain?

Answers

You would need to pull on the string with a force of 5.76 N to produce the same acceleration you obtained with a force of 15 N on the chain.

To calculate the force needed to produce the same acceleration as a force of 15 N on the chain, we need to use the formula:
force = mass × acceleration

First, we need to calculate the acceleration of the bicycle wheel when a force of 15 N is applied to the chain. We can use the formula:
acceleration = [tex]\frac{acceleration}{mass}[/tex]
Assuming the mass of the wheel is negligible, we can simplify this to:
acceleration = [tex]=\frac{force}{0.38}[/tex] = [tex]\frac{15N}{0.38}[/tex]=39.47 N/m

Now we can calculate the force needed to produce the same acceleration when pulling on the string wrapped around the tire. We can use the formula:
force = mass × acceleration
The mass of the wheel does not change, so we can use the same acceleration value we calculated earlier. However, the radius of the tire is different from the radius of the gear, so we need to take this into account.

The circumference of the tire is 2π(0.38 m) = 2.39 m, while the circumference of the gear is 2π(0.14 m) = 0.88 m.

This means that the force needed to produce the same acceleration when pulling on the string is:
force = mass × acceleration × [tex](\frac{radius of the gear}{radius of the tire} )[/tex]
= 0.38 kg x 39.47 N/m x [tex](\frac{0.14 m}{0.38 m} )[/tex]
= 5.76 N

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A tourist follows a passage which takes her 160 m west, then 180 m at an angle of 45. 0∘ south of east and finally 250 m at an angle 35. 0∘ north of east. The total journey takes 12 minutes.


a. Calculate the magnitude of her displacement from her original position. (4)



b. She measures the distance she has walked to a precision of 5%. She times her total journey to ±20 s.



(i) What is her average speed?



(ii) What is the absolute uncertainty on her absolute speed?

Answers

The three components of the journey's vector is 267.7 m, the displacement by the time taken is 22.3 m/min, the average speed is 23 m/min and the average speed with a precision of ±5% and ±20 s is 21.9 m/min to 23 m/min.

What is magnitude?

Magnitude is a measure of the size or intensity of something. It is usually a numerical quantity or value, such as size, energy, power, intensity, brightness, strength, or speed. Magnitude is a mathematical concept that is used to compare and evaluate different values.

Using this theorem, we can find the magnitude of the displacement (d) by taking the square root of the sum of the squares of the three components of the journey's vector.
d = √(160² + (180*cos45)² + (250*cos35)²)
d = √(25600 + 25600 + 20625)
d = √71725
d ≈ 267.7 m

To calculate the average speed, we need to divide the magnitude of the displacement by the time taken.
Average Speed = d/t
Average Speed = 267.7 m/12 min
Average Speed = 22.3 m/min
To account for the precision of ±5%, we can add or subtract 5% of the displacement, and ±20 s of the time taken.

Using the new values, we can calculate the average speed as follows:
Average Speed = (267.7 ± 13.4 m)/(12 min ± 20 s)
Average Speed = (254.3 m - 281.1 m)/(11 min 40 s - 12 min 20 s)
Average Speed = (254.3 m/11 min 40 s) - (281.1 m/12 min 20 s)
Average Speed = 21.9 m/min - 23 m/min
Therefore, the average speed with a precision of ±5% and ±20 s is 21.9 m/min to 23 m/min.

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A 2.0 kg brick has the dimensions 7.5 cm x 15 cm x 30cm. find the pressures exerted by the brick on a table when it is resting on its various faces.

Answers

When the brick is resting on its top face, the pressure is also 174 kPa. When the brick is resting on one of its long faces, the pressure exerted is  218 kPa. When the brick is resting on one of its short faces, the pressure is 392 kPa.

The pressure exerted by an object on a surface is defined as the force per unit area perpendicular to the surface. In this case, we can calculate the pressure exerted by the brick on the table when it is resting on each of its faces using the formula P = F/A, where F is the force exerted by the brick and A is the area of the face.

When the brick is resting on its bottom face, the area is 0.1125 m², and the force exerted by the brick is its weight, which is 19.6 N. Therefore, the pressure exerted is P = 19.6 N / 0.1125 m² = 174 kPa.

Similarly, when the brick is resting on its top face, the pressure is also 174 kPa.

When the brick is resting on one of its long faces, the area is 0.045 m², and the force exerted is 9.8 N. Therefore, the pressure exerted is P = 9.8 N / 0.045 m² = 218 kPa.

When the brick is resting on one of its short faces, the pressure is the same as when it is resting on the other short face, which is 392 kPa.

In summary, the pressure exerted by the brick on the table varies depending on which face is in contact with the table, with the highest pressure of 392 kPa being exerted when the brick is resting on one of its short faces.

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To find the pressure exerted by the brick on a table when it is resting on its various faces, we can use the formula:

Pressure = Force / Area

The force exerted by the brick is equal to its weight, which can be calculated using the formula:

Weight = mass * gravity

Where:

mass = 2.0 kg (mass of the brick)

gravity = 9.8 m/s² (acceleration due to gravity)

First, let's calculate the area of each face of the brick:

Face 1 (7.5 cm x 15 cm):

Area1 = 7.5 cm * 15 cm

Face 2 (7.5 cm x 30 cm):

Area2 = 7.5 cm * 30 cm

Face 3 (15 cm x 30 cm):

Area3 = 15 cm * 30 cm

Now, let's calculate the pressures exerted by the brick on the table when it is resting on each face:

Pressure1 = Weight / Area1

Pressure2 = Weight / Area2

Pressure3 = Weight / Area3

Substituting the values into the formulas:

Pressure1 = (2.0 kg * 9.8 m/s²) / (7.5 cm * 15 cm)

Pressure2 = (2.0 kg * 9.8 m/s²) / (7.5 cm * 30 cm)

Pressure3 = (2.0 kg * 9.8 m/s²) / (15 cm * 30 cm)

Now you can calculate the values for Pressure1, Pressure2, and Pressure3. Remember to convert the units to the appropriate form (e.g., meters for length and pascals for pressure) for consistency.

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