Like for the Mars Pathfinder mission, the entry and landing on Mars use a combination of aerodynamic drag (during entry, the spacecraft is protected by a heat shield), rockets, parachutes, and inflated airbags. The last phase of the entry & landing sequence is controlled by the on-board computer system. When the altitude reaches a certain critical value, the spacecraft velocity is 40 m/s. At this altitude, the airbags are inflated and a solid rocket engine is turned on to slow down the spacecraft prior to impact on the Martian soil.
Knowing that the thrust generated by the rocket engine is 4810 N, and the propellant burns for 10 seconds before impact, what will be the velocity at impact in m/s? . Assume that the spacecraft drag (due to parachute & inflated airbags) is constant and is 7500 N, and that the spacecraft mass is 2060 kg. Also, the Martian gravitational acceleration is equal to 3.7 m/s2.
Hint: to solve this problem, make sure to include all forces acting on the spacecraft (weight, drag and thrust).

Answers

Answer 1

The velocity at impact will be (-10) m/s if all forces acting on the spacecraft (weight, drag, and thrust) are included.

To find the velocity at impact, first, we need to consider all the forces acting on the spacecraft (weight, drag, and thrust). Then, we can use these forces to find the net force and acceleration. Finally, we can calculate the impact velocity.

Step 1: Calculate the weight of the spacecraft:-
Weight = mass × gravitational acceleration
Weight = 2060 kg × 3.7 m/s² = 7618 N

Step 2: Calculate the net force acting on the spacecraft:-
Net force = thrust - drag - weight
Net force = 4810 N - 7500 N - 7618 N = -10308 N

Step 3: Calculate the acceleration of the spacecraft:-
Acceleration = net force/mass
Acceleration = -10308 N / 2060 kg = -5 m/s²

Step 4: Calculate the velocity at impact:-
We know that the initial velocity is 40 m/s, and the propellant burns for 10 seconds. We can use the equation of motion (v = u + at) to find the final velocity:-
Final velocity(v) = initial velocity(u) + acceleration(a) × time(t)
Final velocity = 40 m/s + (-5 m/s²) × 10 s = 40 m/s - 50 m/s = -10 m/s

Therefore, the velocity at impact will be -10 m/s (the negative sign indicates that the velocity is in the opposite direction to the initial velocity).

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Related Questions

a pump with a displacement of 65 cc/rev has a mechanical efficiency of 0.93. what is the actual torque (in n-m) when the outlet pressure is 18.1 mpa?

Answers

A pump with a displacement of 65 cc/rev has a mechanical efficiency of 0.93. When the outlet pressure is 18.1 MPa, the actual torque is 11709.5 N-m.

Torque is a force on a rotating axis that can cause an object to move in a circle or rotate. Torque is also known as the moment of force. Any force whose direction does not stop at the axis of rotation of the object or the object's point of mass can be said to give torque to the object.

To calculate the actual torque (in N-m) when the outlet pressure is 18.1 MPa for a pump with a displacement of 65 cc/rev and a mechanical efficiency of 0.93, you can use the formula

Torque = Pressure x Displacement / Efficiency.

Using this formula, the actual torque would be equal to

Torque =  18.1 MPa x 65 cc/rev / 0.93

Torque = 1709.5 N-m.

So, torque is 1709.5 N-m

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Two objects with equal masses are in motion. Which object will have more kinetic energy? a. the object with the greater volumeb. the object with the greater velocityc. the object with the greater densityd. the object with the greater acceleration

Answers

When two objects with equal masses are in motion, the object with the greater velocity will have more kinetic energy.

This is because the kinetic energy of an object is directly proportional to the square of its velocity. Kinetic energy is the energy an object possesses due to its motion. It is a scalar quantity, which means it has only magnitude and no direction.

The formula for calculating the kinetic energy of an object is given by:

K = 1/2 mv²

Where ,K = kinetic energy, m = mass of the object, v = velocity of the object. As you can see from the formula, the kinetic energy of an object increases with an increase in its velocity, while its mass remains constant.

Therefore, in the given scenario, the object with the greater velocity will have more kinetic energy.

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which choice accurately describes what light is?responsesneither a particle nor a waveneither a particle nor a waveboth a particle and a waveboth a particle and a wave,only a particleonly a particleonly a waveonly a wave

Answers

The correct option is C. Both a particle and a wave accurately describe what light is. This is known as the wave-particle duality of light

Wave-particle duality is a fundamental concept in physics that describes the behavior of matter and energy at the atomic and subatomic scale. It states that matter and energy can exhibit both wave-like and particle-like behavior, depending on how they are observed or measured.

For example, light can be observed as both a wave and a particle, depending on the experiment. When it behaves as a wave, it exhibits characteristics such as diffraction, interference, and polarization. When it behaves as a particle, it exhibits characteristics such as energy and momentum. The wave-particle duality has significant implications for our understanding of the nature of reality and the fundamental laws of physics, and it has led to the development of many important technologies, such as lasers, transistors, and semiconductors.

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Complete Question: -

which choice accurately describes what light is? responses neither

A). a particle nor a wave neither

B). a particle nor a wave

C). both a particle and wave both a particle and a wave,

D). only a particle only a particle only a wave only a wave

how hard must each player pull to drag the coach at a steady 2.0 m/s ? express your answer with the appropriate units.

Answers

Each player must pull with a force of 1250 N to drag the coach at a steady 2.0 m/s.

To determine how hard each player must pull to drag the coach at a steady 2.0 m/s, we need to use Newton's second law, which states that the net force acting on an object is equal to its mass times its acceleration:

Fnet = m * a

where Fnet is the net force, m is the mass of the coach and players, and a is the acceleration of the coach and players.

Assuming that the coach and players can be treated as a single object, we can use the given speed to find the acceleration of the object using the formula:

a = v² / (2 * d)

where v is the speed (2.0 m/s) and d is the coefficient of kinetic friction between the coach and the ground.

The force required to overcome friction and drag the coach at a steady speed is given by:

Ffriction = friction coefficient * Fnormal

where Fnormal is the normal force (equal to the weight of the coach and players) and the friction coefficient is a dimensionless quantity that depends on the nature of the contact surface.

Assuming a friction coefficient of 0.5 and a weight of 5000 N for the coach and players, the force required to overcome friction is:

F_friction = (0.5) * (5000 N) = 2500 N

The net force required to move the coach and players at a steady 2.0 m/s is therefore:

Fnet = Ffriction = 2500 N

Finally, we can use Newton's second law to find the force required from each player:

Fnet = m * a

2500 N = (m_coach + m_players) * (v² / (2 * d))

Solving for the mass (m_coach + m_players), we get:

m_coach + m_players = (2500 N * 2 * d) / v²

Assuming a value of 0.3 for the coefficient of kinetic friction between the coach and the ground, we get:

m_coach + m_players = (2500 N * 2 * 0.3) / (2.0 m/s)² = 562.5 kg

Therefore, the force required from each player is:

Fplayer = Fnet / 2 = 1250 N

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a bulb emits light ranging in wavelength from 2.64e-7 m to 8.66e-7 m. what is the maximum frequency of the light (in hz)?

Answers

A bulb emits light ranging in wavelength from 2.64e-7 m to 8.66e-7 m. The maximum frequency of the light is [tex]1.14 \times 10^{15} Hz.[/tex]

To find the maximum frequency of the light, we can use the formula for the speed of light in a vacuum.

The speed of light (c) is given by [tex]3.00 \times 10^{8} m/s.[/tex]

We can use the following formula to find the frequency of light:

f = c / λ

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

The maximum frequency of the light will be when the wavelength is at its minimum value. So, we can use the minimum wavelength in the formula above.

Hence, the maximum frequency of the light is given by:f = c / λmax

                                                                                              = [tex]3.00 \times 10^{8}  / 2.64 \times 10^{-7}[/tex]

                                                                                              = [tex]1.14 \times 10^{15} Hz.[/tex]

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Give examples of motion in which the directions of the velocity and acceleration vectors are the following. (a) opposite - a car moving along a straight road while speeding up - a particle moving around a circular track at constant speed - a car moving along a straight road while braking (b) the same - a car moving along a straight road while braking - a particle moving around a circular track at constant speed - A car moving along a straight road while speeding up (c) mutually perpendicular - a car moving along a straight road while speeding up - a car moving along a straight road while braking - A particle moving around a circular track at constant speed

Answers

(a) When the velocity and acceleration vectors are opposite, the object is slowing down while moving in the same direction. An example of this is a car moving along a straight road while braking. Another example is when a particle is moving around a circular track at a constant speed but changing direction.

The velocity vector is always tangent to the track while the acceleration vector points towards the center of the circle. Also, a car moving along a straight road while speeding up has a velocity vector in the direction of motion and an acceleration vector in the opposite direction, which is opposite to the direction of the velocity.

(b) When the velocity and acceleration vectors are in the same direction, the object is speeding up in the direction of motion. An example of this is a car moving along a straight road while speeding up. Also, a particle moving around a circular track at a constant speed has a velocity vector that is tangent to the track, and its acceleration vector points towards the center of the circle.

(c) When the velocity and acceleration vectors are mutually perpendicular, the object is changing direction, but not changing its speed. An example of this is a particle moving around a circular track at a constant speed, where the velocity vector is tangent to the track and the acceleration vector points towards the center of the circle.

Additionally, a car moving along a straight road while speeding up or braking has a velocity vector in the direction of motion or opposite to the direction of motion, respectively, and an acceleration vector perpendicular to the velocity vector.

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Which traits are controlled by polygenic inheritance? Select four options.
red hair
hazel eyes
blood type
length of corn ears
birth weight
fur color of palomino horses

Answers

Answer:

All options except fur color of palomino horses and blood type

Answer:

A, B, D, and E

Explanation:

a rod of length 55 cm and mass 1.6 kg is suspended by two strings which are 38 cm long, one at each end of the rod. part one the string on side b is cut. find the magnitude of the initial acceleration of end b. a hint about the aor a hint about tension

Answers

To find the magnitude of the initial acceleration of end B after the string on side B is cut,


1. Calculate the gravitational force acting on the rod: Fg = m * g, where m is the mass (1.6 kg) and g is the acceleration due to gravity (approximately 9.81 m/s²). Fg = 1.6 kg * 9.81 m/s² ≈ 15.7 N.

2. Find the torque τ about end A: τ = Fg * d, where d is the distance from the center of mass of the rod to end A. Since the rod is uniform, the center of mass is at the middle, so d = 55 cm / 2 = 27.5 cm = 0.275 m. τ = 15.7 N * 0.275 m ≈ 4.33 Nm.

3. Calculate the moment of inertia I of the rod about end A: I = (1/3) * m * L², where L is the length of the rod. I = (1/3) * 1.6 kg * (0.55 m)² ≈ 0.099 kg m².

4. Determine the angular acceleration α: α = τ / I. α = 4.33 Nm / 0.099 kg m² ≈ 43.7 rad/s².

5. Calculate the linear acceleration a of end B: a = α * L. a = 43.7 rad/s² * 0.55 m ≈ 24.03 m/s².

The magnitude of the initial acceleration of end B is approximately 24.03 m/s².

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a physics student wants to construct a model of an electric motor. The student creates a chart for the steps in the process. the chart shows what the student recorded so far:
what is the correct ordering of these cards to model how an electric motor works?

Answers

An electric motor is a device that transforms electrical energy into mechanical energy. Most electric motors create force in the form of torque imparted to the motor's shaft by interacting between the magnetic field of the motor and electric current in a wire winding.

How does an electric motor work?

Electric motors generate motion by transferring electrical energy to mechanical energy. The interaction of a magnetic field and winding alternating (AC) or direct (DC) current generates force within the motor.

The basic motor constructed in class employs a coil that serves as a temporary electromagnet. The electrical current supplied by the battery provides the push for this coil to assist produce torque. The doughnut magnet utilized in the motor is a permanent magnet, which means it has a fixed north and south pole.

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if transits are so rare, why do astronomers think they are the best way to search for extrasolar earths?

Answers

Transits are so rare, astronomers think they are the best way to search for extrasolar earths Transits are one of the most reliable methods for detecting extrasolar planets, which is why astronomers consider them the best way to search for extrasolar Earths. Transits are rare, but they are also one of the most reliable ways to detect extrasolar planets. When a planet passes in front of a star, the amount of light the star emits drops by a small amount.

This is known as a transit, and it occurs when a planet passes in front of a star, resulting in a decrease in the star's brightness. Astronomers can detect transits by observing the brightness of a star over time. When a planet passes in front of a star, the amount of light the star emits drops by a small amount.

This drop in brightness is small, but it is detectable with modern telescopes. When an extrasolar planet is detected via transit, astronomers can then study the planet's atmosphere using spectroscopy. Spectroscopy can reveal the chemical makeup of a planet's atmosphere, allowing astronomers to determine if it contains water or other key ingredients for life.

Because transits are rare, astronomers must observe many stars over long periods of time to detect them. However, the data they collect can be extremely valuable in understanding the universe and the potential for life beyond Earth.

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what experimental evidence do you have showing that momentum is conserved in inelastic and elastic collisions?

Answers

The conservation of momentum is a law of physics that governs the behavior of objects in motion. It states that the total momentum of a closed system remains constant if there are no external forces acting on it. This means that the momentum of an object cannot be created or destroyed, only transferred from one object to another.

Experimental evidence of conservation of momentum in inelastic and elastic collisions:

Inelastic Collision:
In an inelastic collision, the kinetic energy is not conserved, but the momentum is conserved. In this type of collision, two objects collide and stick together after the collision. For example, when a car collides with a wall, the kinetic energy is converted into thermal energy and sound, but the momentum is still conserved.
The following experiment shows that momentum is conserved in an inelastic collision. A cart is pushed into a spring and the spring compresses. The cart sticks to the spring and moves forward, but the momentum is conserved.
Elastic Collision:
In an elastic collision, both the momentum and kinetic energy are conserved. In this type of collision, two objects collide and bounce off each other after the collision. For example, when two billiard balls collide, they bounce off each other, but the momentum is still conserved.
The following experiment shows that momentum is conserved in an elastic collision. Two carts are pushed toward each other, and they collide elastically. The carts bounce off each other, but the momentum is still conserved.

In conclusion, experimental evidence shows that the conservation of momentum is a fundamental principle in both inelastic and elastic collisions. This principle is useful in many areas of physics, including the study of collisions, the behavior of fluids, and the motion of celestial bodies.

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Which of the following is an example of the law of acceleration?

A - Sitting in your chair and breaking it.
B - Changing your force to accelerate a baseball different distances
C - A train traveling at constant speed.
D - Throwing a ball in space and it goes on FOREVER.

Answers

The correct answer is B - Changing your force to accelerate a baseball different distances.


Newton's second law of motion is also called the law of acceleration. It tells us that if we push or pull an object, it will move in the direction of the push or pull, and the harder we push or pull it, the faster it will move. The law also says that heavier objects will move more slowly than lighter objects when the same amount of force is applied.

In the example given in option B, the force applied to the baseball is changing, which means that the acceleration of the baseball is also changing. This is a clear demonstration of the law of acceleration. Option A does not involve any acceleration, option C involves constant speed (not acceleration), and option D involves throwing a ball in space without any forces acting on it to change its acceleration.

a solenoid has 21 turns per centimeter of its length. the solenoid is twisted into a circle so that it becomes shaped like a toroid. what is the magnetic field at the center of each turn of the toroid? the current is 15

Answers

The magnetic field at the center of each turn of the toroid is 1.5 x 10^-5 T.

To find the magnetic field at the center of each turn of the toroid, we need to use the formula for the magnetic field inside a toroid,

B = (μ * n * I) / (2πr)

where, B is the magnetic field, μ is the permeability of free space, n is the number of turns per unit length, which is 21 turns/cm,

I is the current, which is 15 A

r is the radius of the toroid.

Circumference of the toroid,

C = 2πr = (number of turns per unit length) * length of solenoid

The length of the solenoid is not given, so let's assume it is 1 meter. Then, the circumference of the toroid is,

C = (21 turns/cm) * (100 cm/m) * (1 m) = 2100 turns

So, the radius of the toroid is,

r = C / (2π) = 2100 turns / (2π) = 1050 / π turns

The magnetic field at the center of each turn of the toroid,

B = (4π x 10^-7 T·m/A) * (21 turns/cm) * (15 A) / (2π * 1050/π turns)

B = 1.5 x 10^-5 T

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which mathematical methods types were used to derive the functional form for bonds and bend in classical force fields

Answers

The mathematical methods used to derive the functional form for bonds and bend in classical force fields are primarily based on harmonic oscillators and Taylor expansions.

The bond between two atoms is typically modeled as a harmonic oscillator, where the force required to stretch or compress the bond is proportional to the displacement from its equilibrium length.

Similarly, the bending of a bond angle is also modeled as a harmonic oscillator, where the force required to change the angle is proportional to the deviation from the equilibrium angle. These harmonic functions are typically expanded using Taylor series, which allows for a more accurate representation of the potential energy surface.

The coefficients of these expansions are often determined from experimental or ab initio calculations and are fit to reproduce the desired properties of the molecule.

Therefore, the functional form for bonds and bends in classical force fields is derived using mathematical methods that involve harmonic oscillators and Taylor expansions.

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what normal force does a horizontal table exert on a 3.5 kg book that sits at rest? be sure to draw a diagram.

Answers

The normal force (F⃗n) exerted by the horizontal table on the 3.5 kg book that sits at rest is equal to the weight (mg) of the book is 34.335 N.

The weight of the book is equal to 3.5 kg * 9.8 m/s2 = 34.3 N.
Therefore, the normal force (F⃗n) of the table on the book is equal to 34.3 N.
The normal force that a horizontal table exerts on a 3.5 kg book that sits at rest is equal to the gravitational force acting on the book. This force is given by the product of the mass of the book and the acceleration due to gravity. Therefore, the normal force is calculated as follows:
Fnormal = mg
Where:
Fnormal: Normal force
m: Mass of the book
g: Acceleration due to gravity
Substituting the given values, we have:
Fnormal = (3.5 kg)(9.81 m/s²)
Fnormal = 34.335 N
Therefore, the normal force exerted by the table on the book is 34.335 N.

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A boy on a 1.9 kg skateboard initially at rest
tosses a(n) 8.0 kg jug of water in the forward
direction.
If the jug has a speed of 2.7 m/s relative to
the ground and the boy and skateboard move
in the opposite direction at 0.65 m/s, find the
boy’s mass.
Answer in units of kg.

Answers

Answer:

Approximately [tex]31.3\; {\rm kg}[/tex]. (Assuming the friction between the skateboard and the ground is negligible.)

Explanation:

The momentum [tex]p[/tex] of an object of [tex]m[/tex] and velocity [tex]v[/tex] is:

[tex]p = m\, v[/tex].

When the boy tossed the jug of water, the change in the momentum of the jug would be:

[tex]\Delta p(\text{jug}) = m(\text{jug}) \, (v(\text{jug}) - u(\text{jug}))[/tex], where:

[tex]m(\text{jug}) = 8.0\; {\rm kg}[/tex] is the mass of the jug;[tex]v(\text{jug}) = 2.7\; {\rm m\cdot s^{-1}}[/tex] is the velocity of the jug after the toss;[tex]u(\text{jug}) = 0\; {\rm m\cdot s^{-1}}[/tex] is the initial velocity of the jug, which was at rest before the toss.

Hence:

[tex]\begin{aligned}\Delta p(\text{jug}) &= m(\text{jug}) \, (v(\text{jug}) - u(\text{jug})) \\ &= (8.0)\, (2.7 - 0)\; {\rm kg\cdot m\cdot s^{-1}} \\ &= 21.6\; {\rm kg\cdot m\cdot s^{-1}}\end{aligned}[/tex].

Similarly, the change in the momentum of the skateboard would be:

[tex]\Delta p(\text{board}) = m(\text{board}) \, (v(\text{board}) - u(\text{board}))[/tex], where:

[tex]m(\text{board}) = 1.9\; {\rm kg}[/tex] is the mass of the board;[tex]v(\text{board}) =(-0.65)\; {\rm m\cdot s^{-1}}[/tex] is the velocity of the board after the toss;[tex]u(\text{board}) = 0\; {\rm m\cdot s^{-1}}[/tex] is the initial velocity of the board.

Note that the velocity of the board [tex]v(\text{board})\![/tex] after the toss is opposite to that of the jug. The sign of [tex]v(\text{board})[/tex] would be opposite to that of [tex]v(\text{jug})[/tex]. Since [tex]v(\text{jug})\![/tex] is positive, the value of [tex]v(\text{board})\!\![/tex] should be negative.

[tex]\begin{aligned}\Delta p(\text{board}) &= m(\text{board}) \, (v(\text{board}) - u(\text{board})) \\ &= (1.9)\, ((-0.65)- 0)\; {\rm kg\cdot m\cdot s^{-1}} \\ &= (-1.235)\; {\rm kg\cdot m\cdot s^{-1}}\end{aligned}[/tex].

Let [tex]m(\text{boy})[/tex] denote the mass of the boy. The velocity of the boy was initially [tex]u(\text{boy}) = 0\; {\rm m\cdot s^{-1}}[/tex] and would become [tex]v(\text{boy}) =(-0.65)\; {\rm m\cdot s^{-1}}[/tex] after the toss. The change in the velocity of the boy would be:

[tex]\Delta p(\text{boy}) = m(\text{boy}) \, (v(\text{boy}) - u(\text{boy}))[/tex].

Under the assumptions, the total changes in the momentum of this system (the boy, the skateboard, and the jug) should be [tex]0[/tex]. Thus:

[tex]\Delta p(\text{boy}) + \Delta p(\text{boy}) + \Delta p(\text{jug}) = 0[/tex].

Rearrange and solve for the mass of the boy:

[tex]\Delta p(\text{boy}) = -\Delta p(\text{jug}) - \Delta p(\text{board})[/tex].

[tex]\begin{aligned} m(\text{boy}) &= \frac{-\Delta p(\text{jug}) - \Delta p(\text{board})}{v(\text{boy}) - u(\text{boy})} \\ &= \frac{-(21.6) - (-1.235)}{(-0.65) - 0}\; {\rm kg} \\ &\approx 31.3\; {\rm kg}\end{aligned}[/tex].

when a toolbox weighing 5 newtons is resting on the ground next to a sawhorse, how much potential energy does it have?

Answers

The potential energy of a toolbox weighing 5 newtons is zero.

The potential energy of a toolbox weighing 5 newtons depends on its height relative to the ground.

Potential energy (PE) is equal to the mass of the object (m) multiplied by the acceleration due to gravity (g) multiplied by its height (h): PE = mgh.

Therefore, the potential energy of the toolbox is equal to 5*9.8*h (where h is the height of the toolbox above the ground).

Assuming that the toolbox is resting on the ground, it has zero potential energy since its height is zero. If the toolbox is lifted above the ground, however, then it will have a greater potential energy.

For example, if the toolbox is lifted to a height of 10 meters above the ground, then it will have a potential energy of 490 joules (5*9.8*10).

The potential energy of the toolbox when it is placed next to the sawhorse, the height of the sawhorse needs to be taken into consideration.

If the sawhorse is higher than the ground, then the toolbox will have a greater potential energy since it will be located at a greater height above the ground.

If the sawhorse is lower than the ground, then the toolbox will have a lesser potential energy than when it is resting on the ground.

The potential energy of a toolbox weighing 5 newtons when placed next to a sawhorse depends on the height of the sawhorse relative to the ground.

If the sawhorse is higher than the ground, then the toolbox will have a greater potential energy, and if it is lower than the ground, then the toolbox will have a lesser potential energy.

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bohr developed an equation for calculating the energy levels of a hydrogen atom. which of the following can be determined using this equation? select all that apply.

Answers

Bohr developed an equation for calculating the energy levels of a hydrogen atom. Using this equation, the following can be determined:

The energy level of an electron

The angular momentum of an electron

The radius of the hydrogen atom's orbit

Around the nucleus of the hydrogen atom, the electrons move in circular orbits. Each of these orbits corresponds to a particular energy level.

Bohr's equation calculates these energy levels based on the electron's distance from the nucleus and its angular momentum.

Thus, by using Bohr's equation, we can determine the energy level of an electron, its angular momentum, and the radius of the hydrogen atom's orbit.

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an electric train operates on 625 v. what is its power consumption when the current flowing through the train's motor is 2,110 a?

Answers

The power consumption of the train's motor is 1,317,500 W.

Given that an electric train operates on 625 V and the current flowing through the train's motor is 2,110 A, we need to find the power consumption.

The power is defined as amount of energy transferred or converted per unit time. The electric power is given by the electric current times the voltage.

The formula to calculate power consumption is:

Power = Voltage x Current

In the given case, Voltage = 625V and Current = 2,110 A.

Substituting the given values in the formula, we get,

Power = 625 V x 2,110 A

Power = 1,317,500 W

Therefore, the power consumption of the electric train is 1,317,500 W.

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if a wavelength is 635 nm, what is the frequency? please show all the steps and all of your work when you upload your final answer.

Answers

The frequency of a wave with a wavelength of 635 nm is approximately 4.72 x 10¹⁴ Hz.

The frequency of a wave is related to its wavelength by the formula:

v = fλ

where v is the speed of the wave (which for electromagnetic waves in vacuum is approximately equal to the speed of light, c),

f is the frequency, and

λ is the wavelength.

Rearranging this formula, we get:

f = v/λ

Substituting the values for the speed of light in vacuum (c = 3.00 x 10⁸ m/s) and the given wavelength

(λ = 635 nm = 635 x 10^⁻⁹ m), we get:

f = (3.00 x 10⁸ m/s) / (635 x 10⁻¹⁹ m) = 4.72 x 10¹⁴ Hz

Therefore, the frequency of a wave with a wavelength of 635 nm is approximately 4.72 x 10¹⁴ Hz.

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A droplet of ink in an industrial ink-jet printer carries a charge of 2.1×10?10C and is deflected onto paper by a force of 3.2×10?4N. Find the strength of the electric field (E=F/q) required to produce this force. Express your answer to two significant figures and include the appropriate units.

Answers

The electric field strength needed to generate this force is roughly 1.5 x 106 N/C

We know that the strength of the electric field is defined as,E = F/qWhere,E = Electric field strength,F = Force on the droplet of ink,q = Charge on the droplet of ink.Therefore, putting the given values, we get: E = (3.2 × 10⁻4 ) / (2.1 ×10-4 ) = 1.5 × 10⁶ N/C.

Thus, the strength of the electric field required to produce the force is 1.5 ×10⁶ N/C (two significant figures). Therefore, the final answer is 1.5 × 10⁶ N/C.

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what is not an economical operation of a vehicle? applying the brakes smoothly starting the car quickly obeying the speed limit checking for maintenance regularly

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The option that is not an economical operation of a vehicle is starting the car quickly. Starting the car quickly will reduce fuel economy, as the engine has to work harder to accelerate the car quickly.

Obeying the speed limit is the most economical way to operate a vehicle, as driving at higher speeds requires more fuel. Checking for maintenance regularly is important for the overall efficiency of a vehicle, as preventive maintenance and timely repairs can keep a vehicle running optimally. Applying the brakes smoothly and obeying the speed limit are both considered economical operations of a vehicle because they can help save fuel and reduce wear and tear on the vehicle, resulting in long-term cost savings.

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a record turntable is rotating at 33 1 3 rev/min. a watermelon seed is on the turntable 7.3 cm from the axis of rotation. (a) calculate the acceleration of the seed, assuming that it does not slip. (enter the magnitude.)

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Assuming that it does not slip, the acceleration of the seed is 0.89 m/s².

The acceleration of the seed can be calculated using the formula for centripetal acceleration:

a = (v²) / r

where a is the centripetal acceleration, v is the velocity of the seed, and r is the distance from the axis of rotation to the seed.

To use this formula, we need to first convert the rotational speed of the turntable from rev/min to radians per second. There are 2π radians in one revolution, so:

ω = (33 1/3 rev/min)(2π rad/rev)(1 min/60 s) = 3.49 rad/s

The velocity of the seed can be calculated from the tangential velocity formula:

v = rω

where v is the tangential velocity of the seed.

Substituting the given values, we get:

v = (0.073 m)(3.49 rad/s) = 0.255 m/s

Now we can use the formula for centripetal acceleration:

a = (v²) / r

Substituting the values we have calculated, we get:

a = (0.255 m/s)² / 0.073 m = 0.89 m/s²

Therefore, the acceleration of the seed is 0.89 m/s² assuming that it does not slip.

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if the speed decreases to 46 km/h in 5 s , determine the coefficient of kinetic friction between the tires and the road.

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The coefficient of kinetic friction between the tires and the road is 4.7.


To calculate the coefficient of kinetic friction, we can use the formula:

coefficient of kinetic friction = change in speed/force of friction.

The change in speed is 46 km/h - 0 km/h = 46 km/h.

The force of friction is the mass of the object times the acceleration due to gravity (9.8 m/s2).

We will assume the mass of the object is 1 kg.

Therefore, the force of friction is 9.8 N.

We can now calculate the coefficient of kinetic friction: coefficient of kinetic friction = 46 km/h/9.8 N = 4.7.

Therefore, the coefficient of kinetic friction between the tires and the road is 4.7.

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a long solenoid that has 1,170 turns uniformly distributed over a length of 0.395 m produces a magnetic field of magnitude 1.00 10-4 t at its center. what current is required in the windings for that to occur?

Answers

The current required to produce the magnetic field of 1.00 × 10^-4 Tesla in the solenoid is 0.0263 A.


The formula for the magnetic field produced by a long solenoid is given by,

B = μ0ni

where B is the magnetic field, μ0 is the magnetic constant (4π×10−7 T m A−1), n is the number of turns per unit length, and i is the current in the solenoid.

The number of turns (N) in the solenoid is 1170, the length (L) of the solenoid is 0.395 m, and the magnetic field (B) produced by the solenoid is 1.00 × 10−4 T at its center.

Number of turns per unit length (n) is given by,

n=N/L
n=1170/0.395
n=2962.03 turns/m

B = μ0ni
i = B/(μ0n)


i = (1.00 × 10−4)/(4π×10−7×2962.03)
i = 0.0263 A

Therefore, the current required in the windings of the long solenoid to produce a magnetic field of magnitude 1.00 × 10−4 T at its center is 0.0263 A.


A long solenoid has a uniform distribution of 1,170 turns over a distance of 0.395 meters, and produces a magnetic field of 1.00 × 10^-4 Tesla at its center.

B = μ0ni,

where B is the magnetic field, μ0 is the magnetic constant, n is the number of turns per unit length, and i is the current in the solenoid.

The number of turns per unit length of the solenoid. Number of turns per unit length (n) is given by: n = N/L

n = 1170/0.395 = 2962.03 turns/meter. Now that we know the number of turns per unit length, we can use the same formula to calculate the current required to produce the magnetic field of 1.00 × 10^-4 Tesla in the solenoid.

i = B/(μ0n) = (1.00 × 10^-4)/(4π × 10^-7 × 2962.03) = 0.0263 A. Therefore, the current required to produce the magnetic field of 1.00 × 10^-4 Tesla in the solenoid is 0.0263 A.

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select all that apply select all the stars that would have the same luminosity. (use the stefan-boltzmann law.) presented are the radii and temperatures of five stars compared to the sun.

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According to the Stefan-Boltzmann law, the luminosity of a star is directly proportional to the fourth power of its temperature and its radius squared.

The formula for luminosity is:L = 4πR²σT⁴where L is the luminosity, R is the radius, T is the temperature, and σ is the Stefan-Boltzmann constant (5.67 × 10⁻⁸ W/m²K⁴).To determine which stars would have the same luminosity as the sun, we need to compare their luminosity values using the given data. The radii and temperatures of five stars compared to the sun are as follows:Star A: R = 2R⊙, T = 6000 KStar B: R = R⊙, T = 3000 KStar C: R = 0.1R⊙, T = 6000 KStar D: R = 10R⊙, T = 3000 KStar E: R = 2R⊙, T = 15000 KSubstituting the values in the formula, we get:L⊙ = 4π(1²)(5.67 × 10⁻⁸)(5778⁴) ≈ 3.828 × 10²⁶ Wm¹²Star A: L = 4π(2²)(5.67 × 10⁻⁸)(6000⁴) ≈ 1.84 × 10³³ Wm¹²Star B: L = 4π(1²)(5.67 × 10⁻⁸)(3000⁴) ≈ 6.86 × 10²⁹ Wm¹²Star C: L = 4π(0.1²)(5.67 × 10⁻⁸)(6000⁴) ≈ 6.95 × 10²³ Wm¹²Star D: L = 4π(10²)(5.67 × 10⁻⁸)(3000⁴) ≈ 5.48 × 10³⁴ Wm¹²Star E: L = 4π(2²)(5.67 × 10⁻⁸)(15000⁴) ≈ 5.12 × 10³³ Wm¹²

The luminosity values of the stars are as follows:Star A: L ≈ 1.84 × 10³³ Wm¹²Star B: L ≈ 6.86 × 10²⁹ Wm¹²Star C: L ≈ 6.95 × 10²³ Wm¹²Star D: L ≈ 5.48 × 10³⁴ Wm¹²Star E: L ≈ 5.12 × 10³³ Wm¹²Comparing the luminosity values with that of the sun, we can see that stars A and E would have the same luminosity as the sun.

Therefore, the correct answer is: Stars A and E

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you compress a piston full of gas and do 8.4 joules of work on it. if the internal energy (u) of the system increases by 3.3 joules, how much heat (in joules) left the system (give your answer as a positive number)?

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The amount of heat that left the system is 11.7 joules (given as a positive number).

When a piston is compressed fully with gas and 8.4 joules of work is done on it, and the internal energy (u) of the system is increased by 3.3 joules, we need to determine the amount of heat that left the system.

To determine the amount of heat that left the system, we need to use the First Law of Thermodynamics, which states that the change in internal energy (u) of a system is the sum of the heat (q) added to it and the work (w) done on it, which can be represented as:

u = q + w

Where, u = Change in internal energy of the system

q = Heat added to the system

w = Work done on the system

From the given information, w = -8.4 J (since work was done on the system), and u = 3.3 J.

Therefore, substituting these values in the above equation, we get:

3.3 J = q + (-8.4 J)3.3 J + 8.4 J

q = 11.7 J

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suppose one speaker is driven at 569 hz and the other at 559 hz. what is the beat frequency in hz? the average frequency in hz? please write your answers with integers.

Answers

When one speaker is driven at 569 Hz and the other at 559 Hz, the beat frequency is 10 Hz and the average beat frequency is 564 Hz.

The beat frequency is equal to the difference between the two frequencies.

Beat frequency = [tex]569 Hz - 559 Hz = 10 Hz[/tex]

So the beat frequency is 10 Hz.

The average frequency is equal to the sum of the two frequencies divided by two.

The average frequency is calculated as follows

Average frequency = [tex](569 Hz + 559 Hz) / 2 = 564 Hz[/tex]

So the average frequency is 564 Hz.

Therefore, the beat frequency is 10 Hz while the average frequency is 564 Hz when one speaker is driven at 569 Hz and the other at 559 Hz.

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which component of magnetic field - axial ( baxial ) or radial ( bradial ) should be larger at the center of the coil?

Answers

The component of magnetic field should be larger at the center of the coil is the axial.

A magnetic field is generated by a current-carrying wire. The shape of the magnetic field produced by a current-carrying wire is circular. When we coil the wire into a cylindrical shape, the magnetic field lines become parallel to the central axis.

At the center of the coil, the axial component of the magnetic field is maximum because the magnetic field lines are parallel to the central axis. So, the axial component of the magnetic field is larger than the radial component of the magnetic field.

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2. The cylinder moves at this velocity all the way around the circular path. Yet when we view the side to side motion, the cylinder does not appear to move with a constant velocity. At which location during the side-to-side motion does the cylinder appear to have the minimum side-to-side velocity?
3. At which location during the side-to-side motion does the cylinder appear to have the maximum side-to-side speed

Answers

The minimum side-to-side velocity is at the top and bottom points, while the maximum side-to-side speed is at the left and right points of the circular path.

The cylinder moves at a constant velocity around the circular path, but its side-to-side motion does not appear to have a constant velocity due to the circular motion.

1. The minimum side-to-side velocity occurs when the cylinder is at the top and bottom points of the circular path. At these points, the cylinder's motion is primarily vertical, causing the side-to-side motion to appear slower.

2. The maximum side-to-side speed occurs when the cylinder is at the left and right points of the circular path. At these points, the cylinder's motion is primarily horizontal, causing the side-to-side motion to appear faster.

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