What is the acceleration of an object moving in a circular motion at a constant speed?

Answers

Answer 1

The velocity of an item traveling in a circle at a constant speed is changing, therefore the object is still accelerating.

Since its velocity is changing, an object traveling in a circle at a constant speed is still accelerating. Particularly, even if its speed doesn't change, the direction of motion does. The item is being pulled towards the center of the circular route by a centripetal force, which is the cause of the direction shift.

The acceleration of an object moving in a circular motion at a constant speed can be calculated using the following formula:

a = [tex]v^2 / r[/tex]

where

a is the centripetal acceleration,

v is the speed of the object, and

r is the radius of the circular path.

The velocity of an item traveling in a circle at a constant speed is changing, therefore the object is still accelerating.

In particular, even while its speed is constant, its direction of motion is continually changing. A centripetal force, which is dragging the item towards the centre of the circular route, is to blame for this shift in direction.

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Related Questions

What physical property of some energies correspond to the height of wave peaks?

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Amplitude is a term used to describe a physical characteristic of some energies that is related to the height of wave peaks.

The term "amplitude" in physics refers to the strongest variation or oscillation, such as a wave or signal. It acts as a gauge for the magnitude of the change or displacement relative to rest.It just serves to represent the size or strength of a wave or signal. The relationship between a sound wave's amplitude and loudness is inverse. In terms of light, it corresponds to the intensity of the light wave.

The definition of amplitude is given as an energy measurement that is used to describe waves. An energy pulse travelling through a medium, or across empty space in the case of electromagnetic radiation, is referred to as a wave. A wave's amplitude may be thought of as a measurement of the energy it has transmitted; the more energy a wave has, the bigger its amplitude. Depending on the kind of wave, several answers can be given when asked what the amplitude of a wave is.

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A 65-kg student is in an elevator moving downward with constant velocity. He uses a bathroom scale to measure the upward force exerted on his feet.

What force magnitude does the scale read when the elevator is traveling at constant velocity?

What force magnitude does the scale read when the elevator slows to a stop with an acceleration of magnitude 2.0 m/s^2 ?

What force magnitude does the scale read when the elevator starts downward again with an acceleration of magnitude 2.0 m/s^2 ?

Answers

Force magnitude when elevator is traveling at constant velocity is, 637 N. Force magnitude does the scale read when the elevator slows to a stop is,  429 N (downward force). Force magnitude when elevator starts downward again is, 208 N.

Force magnitude when elevator is traveling at constant velocity, 65 kg x 9.8 m/s^2 = 637 N (upward force)

When the elevator slows to a stop with an acceleration of magnitude 2.0 m/s^2, the net force acting on the student is the sum of the gravitational force and the force exerted by the scale.

Net force: (65 kg) x (2.0 m/s^2) = 130 N (downward force)

Force magnitude when elevator slows to a stop: 637 N - 130 N = 507 N (upward force)

When the elevator starts moving downward again with an acceleration of magnitude 2.0 m/s^2, the net force is difference between the gravitational force and the force exerted by the scale,

Net force: (65 kg) x (9.8 m/s^2 - 2.0 m/s^2) = 429 N (downward force)

Force magnitude when elevator starts downward again: 637 N - 429 N = 208 N (upward force)

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after the switch is closed, which plate of the capacitor eventually becomes positively charged? after the switch is closed, which plate of the capacitor eventually becomes positively charged? the top plate only the bottom plate only both plates neither plate because electrons are negatively charged

Answers

After the switch is closed, the top plate  of the capacitor eventually becomes positively charged

When the switch is closed, what happens to the capacitor's charge?

It initially acts like a short-circuit because when the switch is first closed, the voltage across the capacitor, which we were assured was entirely discharged, is zero volts. The capacitor will eventually operate as an open circuit because the voltage of the capacitor will eventually equal the voltage of the battery.

An electrolytic capacitor with polarity will be labelled with the word "polarity" on it. A minus sign or a color stripe that runs the length of the capacitor is commonly used to indicate the capacitor's negative. The positive lead of the capacitor is longer than the negative lead.

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when two sources of waves with the same frequency are active, what must the path length difference be at some point in space for the waves to interfere destructively? when two sources of waves with the same frequency are active, what must the path length difference be at some point in space for the waves to interfere destructively? the distance between the two sources. some whole multiple of the wavelength. 0 some whole multiple of the wavelength plus one half the wavelength.

Answers

When two sources of waves with the same frequency are active, the path length difference must be equal to some whole multiple of the wavelength plus one half the wavelength for the waves to interfere destructively.

This is because in order for two waves to interfere destructively, they must be exactly out of phase with each other. When waves are out of phase, the crest of one wave lines up with the trough of the other, resulting in a cancellation of the waves. This occurs when the path length difference between the two waves is equal to an odd multiple of half wavelengths. For example, if the distance between the two sources is exactly one wavelength, then the waves will interfere constructively, resulting in a stronger wave. However, if the distance is increased to one and a half wavelengths, then the waves will interfere destructively, resulting in a weaker or canceled wave. This pattern repeats for all odd multiples of half wavelengths.

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(a) Why the maximum tidal range (spring tide) occurs during a new moon and full moon phases?(b) Why the minimum tidal range (neap tide) occurs at first-quarter and third-quarter moons?

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(a) The maximum tidal range (spring tide) occurs during a new moon and full moon phases because the sun and moon's gravitational pulls are aligned and amplified.

(b) The minimum tidal range (neap tide) occurs at first-quarter and third-quarter moons because the sun and moon's gravitational pulls are at right angles.

(a) As the sun and moon's gravitational pulls are aligned and amplified during the new moon and full moon phases, the maximum tidal range, or spring tide, occurs during these periods. With the moon and sun on opposing sides of the Earth, the sun, moon, and Earth are all in a straight line during a new moon. Due to the moon's proximity to Earth, its gravitational pull on the planet is at its greatest. Due to its alignment with the moon and Earth, the sun's gravitational pull also contributes to this. A broader tidal range results from the seas bulging due to this alignment, which also generates higher peak tides and lower low tides.

(b) As the sun and moon's gravitational pulls are at right angles during the first and third quarters of the moon, the shortest tidal range, or neap tide, occurs at these periods. With the sun and moon on opposing sides of the Earth, the sun, Earth, and moon make a straight angle during a first-quarter moon. The gravitational pull of the sun partially cancels out the gravitational pull of the moon on Earth, reducing the tidal range. When the moon is quartered, the same thing takes place. There is a narrower tidal range at these periods because the high tides are lower and the low tides are higher.

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a test rocket is fired straight up from rest with a net acceleration of 20 m/s2. after 4 seconds the motor turns off, but the rocket continues to coast upward with no appreciable air resistance. what maximum elevation does the rocket reach?

Answers

Therefore, the maximum elevation the rocket reaches is approximately 1322.9 meters.

define elevation ?

Elevation refers to the vertical distance or height of a location or object above a reference point, such as sea level or ground level. It is often used in geography, surveying, and navigation to describe the height or altitude of a place or feature relative to its surroundings.

The maximum elevation the rocket reaches can be found by first calculating its velocity at the instant the motor turns off and then using the kinematic equation for displacement:

vf = vi + at

where vf is the final velocity, vi is the initial velocity (which is 0 m/s since the rocket starts from rest), a is the acceleration (20 m/s^2), and t is the time interval during which the acceleration is applied (4 s).

vf = 0 + 20 m/s^2 * 4 s = 80 m/s

Now, we can use the kinematic equation for displacement:

Δy = viΔt + 1/2at^2

where Δy is the displacement (or change in elevation), vi is the initial velocity, a is the acceleration (which is now the acceleration due to gravity, -9.8 m/s^2), and t is the time interval during which the object moves (which is the time from when the motor turns off until the object reaches its maximum elevation).

We know that the initial velocity is 80 m/s and that the displacement we are looking for is the maximum elevation. We can solve for t by setting vf to 0 and solving for t:

0 = 80 m/s + (-9.8 m/s^2) * t

t = 8.16 s

Now we can use this value of t to find the maximum elevation:

Δy = viΔt + 1/2at^2

Δy = (80 m/s)(8.16 s) + 1/2(-9.8 m/s^2)(8.16 s)^2

Δy = 1322.9 m

Therefore, the maximum elevation the rocket reaches is approximately 1322.9 meters.

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Which type of satellite is useless for meteorologists at 3AM?
Select one:
a. visible satellite imagery
b. infrared satellite imagery
c. water vapor imagery

Answers

The answer is a because you need light in order to use it

what is the minimum possible diameter of the spot on the wall, defined as the diameter of the circle where the intensity is zero? (a) 2.03e-03 m

Answers

The minimum possible diameter of the spot on the wall is approximately 3.05e-4 mm or 2.03e-3 m.

The minimum possible diameter of the spot on the wall, also known as the diffraction spot or Airy disk, can be calculated using the formula:

d = 2.44 * λ * L / D

where λ is the wavelength of the light, L is the distance between the aperture and the wall, and D is the diameter of the aperture.

In this case, we are not given the wavelength or distance L, but we are given the diameter of the aperture, which is 0.4 mm or 4e-4 m. We can assume a typical visible light wavelength of 500 nm or 5e-7 m and a distance L of 1 m for this calculation.

d = 2.44 * 5e-7 m * 1 m / 4e-4 m

d = 3.05e-7 m or 3.05e-4 mm

Therefore, the minimum possible diameter of the spot on the wall is approximately 3.05e-4 mm or 2.03e-3 m.

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scientists studying the collision of particles note that a certain particle travels around a collider two times every second. if the tube's radius is , with what velocity is the particle traveling?

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When two particles, groups of particles, or solid objects move in the same direction and get close enough to each other to interact, they collide.

What is the collision of particles?

Even though the particles are travelling swiftly in all directions, collisions between them occur more frequently than in gases because of the closer proximity of the particles.

The equation relating velocity and radius is [tex]= \omega =\frac{v}{r}[/tex]

Because the equation can also be used to determine angular velocity

[tex]\omega = 2 \pi[/tex]f we can set the equations equal and solve for the velocity.

[tex]\frac{v}{r} = 2 \pi f[/tex]

[tex]v= 2 \pi f r[/tex]

Since we are given the radius of  [tex]5000 m[/tex] And the frequency of [tex]2Hz[/tex], we can calculate the velocity. (Frequency can be found by the number of times an object travels around a full circle in one second).

[tex]V = 2 \pi (2hz) ( 5000 m) = 2 \pi \times 10^4\frac{m}{s}[/tex]

As an alternative, we can calculate the collider's circumference using its radius.

[tex]C = 2\pi r = 2\pi 5000= 10000\pi[/tex]

Every second, the particle does two full rotations.

[tex]v = \frac{d}{t} = \frac{2(10000\pi )m10^4\frac{}{}}{1s}= 2\pi\times 10^4 \frac{m}{s}[/tex]

Therefore, [tex]2\pi\times 10^4 \frac{m}{s}[/tex]  is the velocity of particle while travelling.

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You toss a ball straight up in the air. Immediately after you let go of it, what force or forces are acting on the ball? For each force you name,
(a) state whether it is a contact force or a long-range force and
(b) identify the agent of the force.

Answers

a) Gravity: This is a long-range force and the agent of the force is the Earth. b) Air Resistance: This is a contact force and the agent of the force is the air molecules. c) Normal Force: This is a contact force and the agent of the force is the ground.

What is Air Resistance?

Air resistance, also known as drag, is a type of frictional force that acts upon objects when they move through a fluid, such as air or water. Air resistance occurs when the air molecules surrounding an object collide with the object’s surface, resulting in a resistive force that opposes the object’s motion. The magnitude of air resistance is dependent on the object’s shape, size, mass, speed, and altitude. Objects with a large surface area, such as parachutes, are more affected by air resistance than objects with a smaller surface area. Air resistance increases with an object’s speed and is stronger at higher altitudes, where the air is thinner. The effects of air resistance can be seen in everyday objects, such as an airplane or a car, and can be reduced by altering an object’s shape or by decreasing its speed.

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a spring mass system is driven from rest harmonically such that the displacement response exhibits a beat of period of 0.2 pi s. the period of oscillation is measured to be 0.02 pi s. calculate the natural frequency and the driving frequency of the system.

Answers

The system's natural frequency is 100rad/s.

The system's driving frequency is 10rad/s.

The natural frequency (ωn) of a system is the frequency at which the system will vibrate when the damping of the system is negligible and the system is disturbed from its equilibrium.The natural frequency of the system is given by the following equation:

[tex]\omega n[/tex] =[tex]\frac{2\pi}{T}[/tex]

where T is the period of oscillation.Hence, the system's inherent frequency is

[tex]\omega n = \frac{2\pi}{0.02\pi} \\= 100 rad/s[/tex]

The driving frequency (ωd) is the frequency at which an external force must be applied to the system in order to cause it to vibrate at the natural frequency of the system. The driving frequency of the system is given by the following equation:

[tex]\omega d = \frac{2\pi}{b}[/tex]

where Tb is the beat period. Therefore, the driving frequency of the system is

[tex]\omega d = \frac{2\pi}{0.2\pi} \\= 10 rad/s[/tex]

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where did the energy of the sun come from originally?

Answers

The energy of the sun originally came from the gravitational collapse of a nebula.

A nebula is a massive cloud of gas and dust known. When it gravitationally collapses, it causes the materials within it to heat up and, eventually, form a protostar. This protostar will continue to heat up and increase in pressure until nuclear fusion began in its core. This fusion of hydrogen atoms into helium releases a tremendous amount of energy, which is what powers the sun and gives it its heat and light.

So, the answer is the energy of the sun originally come from the collapse of a nebula.

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A system is at rest. The mass of each object is shown. Neglecting the mass of the strings, how many forces are acting on the 9 kg block?

A. There is 1 force.
B. There are 2 forces.
C. There are 3 forces.
D. There are 4 forces,

Answers

When the system is at rest, there are 2 forces acting on the 9 kg block.

Describe a force.

An object experiences a push or pull as a result of interaction with another object. A force is exerted on each object when two of them come into contact. The newton, represented by the letter N, is the SI unit of force.

What different kinds of forces exist in physics?

There are two different types of forces: contact forces and non-forces. A few examples of forces are nuclear force, gravitational force, frictional force, magnetic force, electrostatic force, spring force, and others.

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What does the resolution limit of an optical system depend on? Choose all answers that are correct. (a) The wavelength of light (b) The diameter of the aperture (c) The distance to the object being viewed (d) The distance from the aperture to the light detectors

Answers

The resolution limit of an optical system depends on both (a) The wavelength of light and (b) The diameter of the aperture. These two factors determine the diffraction limit, which is the smallest distance between two points that can be resolved by the optical system.

The wavelength of light affects the resolution limit because shorter wavelengths are able to resolve smaller details than longer wavelengths. The diameter of the aperture also affects the resolution limit because a larger aperture allows for more light to enter the system, which can improve the resolution.

The distance to the object being viewed (option c) and the distance from the aperture to the light detectors (option d) do not affect the resolution limit of an optical system. These factors may affect the overall image quality, but they do not determine the smallest distance between two points that can be resolved by the system.

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How are Van Allen belts formed?
O High-energy particles from the Sun get trapped in Earth's magnetic field
O Metals in Earth's core sink and rise, producing a circular movement of the metals.
O Srticles in solar wind travel along lines of Earth's magnetic field and collide with gas atoms.
O Material from the surface of the Sun erupts and forms a loop due to the Sun's magnetic field.

Answers

The Van Allen belt is formed when High-energy particles from the Sun get trapped in Earth's magnetic field

How are Van Allen belts formed?

The Van Allen belts are fields in outer space caused by Earth's magnetism. Magnetic striping is evidence of seafloor unfurling. The inner Van Allen belt is located usually between 6000 and 12 000 km (1 - 2 Earth radii [RE]) above Earth's surface, although it formed dips much near the South Atlantic Ocean. The outer radiation belt covers altitudes of roughly 25 000 to 45 000 km (4 to 7 RE).

Space scientist James Van Allen and his team at the University of Iowa were the first to locate the radiation belts, now also mention to as "The Van Allen Belts."

So we can conclude that The Van Allen belts were first discovered in 1958

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High-energy particles from the Sun get trapped in Earth's magnetic field.

option A.

How are Van Allen belts formed?

The Van Allen belts are formed due to the interaction of charged particles from the solar wind with Earth's magnetic field. High-energy particles from the Sun get trapped in Earth's magnetic field, creating two belts of charged particles that encircle the planet.

The inner belt is made up of highly energetic protons, while the outer belt consists of energetic electrons. The charged particles are trapped by the magnetic field and follow magnetic field lines that are shaped like a torus (doughnut) around the Earth. This creates the Van Allen belts, which can extend several thousand kilometers into space and protect the Earth from the harmful effects of charged particles in the solar wind.

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bulbs a, b, and c in the figure are identical, and all are glowing. (a) rank in order, from most to least, the brightnesses of the three bulbs. (b) suppose a wire is connected between points 1 and 2. what happens to each bulb?

Answers

Bulb C goes out, Bulb A shines brighter (due to higher current), and Bulb B goes out (because to insufficient current) ( due to no current )

What does the term "current" signify in relation to electricity?

The term "electric current" is frequently used to describe how much electricity flows through a circuit and how it flows in an electronic circuit. Amperes are used to measure it (A). As more electricity passes across the circuit, the ampere value increases.

What is a contemporary example?

Starting a car, turning on a light, using an electric stove, watching TV, shaving with an electric razor, playing video games, using a phone, and charging a mobile phone are examples of current electricity.

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The law of conservation of energy:
a. states that energy can neither be created nor destroyed.
b. states that energy can neither be created nor destroyed and cannot change from one form to another.
c. states that energy cannot be created or destroyed, but it can be changed from one form to another.

Answers

The law of conservation of energy states that energy cannot be created or destroyed, but it can be changed from one form to another. Therefore, option c is the correct answer.

explain about law of conservation of energy ?

This law is one of the most fundamental principles of physics and states that the total amount of energy in a closed system remains constant over time, even though it may be transformed from one form to another (such as from potential to kinetic energy).

This law is based on numerous observations and experiments, and it has important implications for understanding the behavior of physical systems, including the ability to predict the outcomes of many physical processes.

The law of conservation of energy states that energy cannot be created or destroyed, but it can be changed from one form to another. Therefore, option c is the correct answer.

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If the electric field between the plates of a given air-filled capacitor is weakened by removing charge from the plates, the capacitance of that capacitor A) decreases B) increases. C) does not change. D) It cannot be determined from the information given.

Answers

If the electric field between the plates of a given air-filled capacitor is weakened by removing charge from the plates, the capacitance of that capacitor does not change.

Capacitance is the amount of charge that can be stored at a given voltage by an electrical component called a capacitor.

C=Q/V

The unit of capacitance is the Farad (F)

C = εA/d,

C is capacitance; ε is permittivity, a term for how well dielectric material stores an electric field; A is the parallel plate area; and d is the distance between the two conductive plates.

electric field between two parallel conducting plates depends on the electric potential or voltage of the two plates and the distance between the two plates. So, the electric field E=Vd E = V d where d is the distance between the two charged plates.

The force on the charge is the same no matter where the charge is located between the plates. This is because the electric field is uniform between the plates.

If the electric field between the plates of a given air-filled capacitor is weakened by removing charge from the plates, the capacitance of that capacitor does not change.

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explain how the values of fm, fc, m, and a can be determined from a frequency domain representation of an amplitude-modulated waveform.

Answers

By measuring the height of the waveform in the time domain or the magnitude of the frequency components in the frequency domain, the amplitude (a) of the modulated waveform may be calculated.

A lower frequency message signal modulates a high-frequency carrier wave in amplitude modulation (AM), creating a modulated waveform. The carrier frequency (fc), the modulating frequency (fm), the modulation index (m), and the amplitude (a) may all be recognised in the frequency domain representation of an AM waveform (a).

The frequency in the middle of the band that the modulated waveform occupies is known as the carrier frequency (fc). Usually, this is the frequency domain representation's highest frequency component.

Finding the frequency difference between the sidebands of the modulated waveform will reveal the modulating frequency (fm). Namely, the modulating frequency is the product of the carrier frequency and the frequency, divided by two.

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If two objects have different temperatures, in which direction will heat move? When will the heat stop moving?

Answers

When you bring two objects of different temperature together, energy will always be transferred from the hotter to the cooler object. The objects will exchange thermal energy, until thermal equilibrium is reached, i.e. until their temperatures are equal. We say that heat flows from the hotter to the cooler object.

Answer: When there are two objects of different temps, the heat will always move from the higher temp to the lower temp. The energy will stop moving when there is equilibrium, when both objects are at the same temperatures.

IA battery moves a charge of 60coloumbs around a circuit at a constant rate in 29seconds .Find the current in the circuit ​

Answers

The current in the circuit is  ≈ 2.07 amperes (A)

What is current circuit?

A current circuit is a closed path through which electric current can flow. It typically consists of a power source, such as a battery or generator, a load, such as a light bulb or motor, and conductive wires or other components that connect the power source and load to form a complete path for the current to flow.

The current in the circuit can be calculated using the formula:

current = charge / time

In this case, the charge moved around the circuit is 60 coulombs and the time taken is 29 seconds. Thus, the current in the circuit is:

current = 60 coulombs / 29 seconds

current ≈ 2.07 amperes (A)

Therefore, The current in the circuit is  ≈ 2.07 amperes (A)

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Two hockey pucks with mass 0.1 kg slide across the ice and collide. Before the collision, puck 1 is going 15 m/s to the east and puck 2 is going 12 m/s the west. After the collision, puck 2 is going 15 m/s to the east. What is the velocity of puck 1?

Answers

The velocity of puck 1 after the collision is 15 m/s to the east.

Conservation of momentum principle to solve this problem

The total momentum of the system before the collision is equal to the total momentum of the system after the collision.

The momentum of each puck can be calculated as:

p = m * v

where

p is the momentum (in kg*m/s)

m is the mass (in kg)

v is the velocity (in m/s)

The total momentum of the system before the collision is:

p_total_before = p1_before + p2_before = m1 * v1_before + m2 * v2_before

where subscripts 1 and 2 refer to pucks 1 and 2, respectively, and "before" refers to the velocity before the collision.

Substituting the given values, we get:

p_total_before = (0.1 kg) * (15 m/s) + (0.1 kg) * (-12 m/s) = 0.3 kg*m/s

The total momentum of the system after the collision is:

p_total_after = p1_after + p2_after = m1 * v1_after + m2 * v2_after

where "after" refers to the velocity after the collision. We are given that puck 2 is going 15 m/s to the east, so the velocity of puck 2 before the collision is -12 m/s to the west, and the change in velocity is:

Delta_v2 = v2_after - v2_before = 15 m/s - (-12 m/s) = 27 m/s

The momentum of puck 2 is conserved during the collision, so we have:

p2_before = p2_after

m2 * v2_before = m2 * v2_after

v2_after = v2_before = -12 m/s

Substituting the given values and solving for the velocity of puck 1 after the collision, we get:

p_total_after = m1 * v1_after + m2 * v2_after

0.3 kg*m/s = (0.1 kg) * v1_after + (0.1 kg) * (-12 m/s)

v1_after = (0.3 kgm/s + 1.2 kgm/s) / (0.1 kg)

v1_after = 15 m/s

Therefore, the velocity of puck 1 after the collision is 15 m/s to the east.

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an isolated charged point particle produces an electric field with magnitude 100 n/c at a point 2 m away. at a point 1 m from the particle, what is the magnitude of the field?

Answers

Magnitude of the electric field at a point 1 m from the particle is 400 N/C.

The magnitude of the electric field produced by an isolated charged point particle follows an inverse-square law, meaning that the field strength decreases as the distance from the particle increases. The electric field strength E is proportional to the inverse of the square of the distance r from the particle:

[tex]E = k*1/r^2[/tex]

We can use this relationship to solve the problem. If the electric field strength at a point 2 m away from the particle is 100 N/C, then we can write:

[tex]100 N/C = kQ/2^2[/tex]

where k is the Coulomb constant and Q is the charge of the particle. Rearranging this equation to solve for Q, we get:

[tex]Q = (100 N/C)(2^2/k)[/tex]

At a point 1 m from the particle, the distance is halved, so the electric field strength will be:

[tex]E = kQ/1^2 = kQ[/tex]

Substituting the value of Q we just calculated, we get:

[tex]E = (100 N/C)(2^2/1^2k) = 400 N/C[/tex]

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when a radiologist reads an mri or ct scan do they check everything visible or just the area in question?

Answers

While radiologists do review all the images in a study, they will typically give more attention to the area of interest in order to provide an accurate diagnosis and ensure that the patient receives the best possible care.

When a radiologist reads an MRI or CT scan, they typically review all the images in the study, not just the area of interest. This is because other areas of the body may contain important incidental findings that could impact a patient's overall health and require further investigation or treatment.

The radiologist will typically focus their attention on the area of the body that has been requested for imaging. They will thoroughly examine the relevant region, and looking for any abnormalities, injuries, or other issues that may be present.

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what is true about the acceleration of a particle that is oscillating with simple harmonic motion (shm)? a. it is in the opposite direction to its velocity b. it is decreasing when the potential energy is increasing c. it is proportional to the frequency of the oscillation d. it is at a minimum when the velocity is at a maximum

Answers

The acceleration of a particle oscillating in a simple harmonic motion is always in the opposite direction to its velocity.

What is accurate regarding a straightforward harmonic oscillation's acceleration?

The velocity is at its greatest point and the acceleration (a) has zeroed out at the equilibrium position. Simple harmonic motion can be distinguished by its variable acceleration, which is always pointing in the direction of the equilibrium position and is inversely proportional to the displacement from the equilibrium position.

What does the term "simple harmonic oscillation" mean, and how does it apply?

It is a specific kind of periodic motion with two extremes as its boundaries. Simple pendulum oscillation and the spring-mass system are two examples. The object will continue to oscillate around a fixed point between two extreme points.

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An object of mass 75 Kg is taken to moon, what will be its weight?(freefall acceleration on moon =1.6 m/s2)

Answers

Answer:

120 Newtons

Explanation:

Weight of an object is given by the relation

W = mg

where

W = weight

m = mass of the object

g = gravitational force or freefall acceleration

Given the numbers:
m = 75 kg

g = 1.6 m/s²

W = 75 x 16 = 120 kg m/s² or 120 Newtons

If the index of refraction of a material is 2, this means that light travels2 times as fast in the material as it does in air.2 times as fast in vacuum as it does in the material.2 times as fast in the material than it does in vacuum.2 times as fast in air as it does in vacuum.1/2 as fast in air as it does in the material.

Answers

If the index of refraction of a material is 2, it means that, 1/2 as fast in air as it does in the material. The correct answer is d.

The index of refraction of a material is defined as the ratio of the speed of light in a vacuum to the speed of light in the material. So, an index of refraction of 2 means that light travels half as fast in the material as it does in a vacuum.

It does not have any direct relation to the speed of light in air, which has an index of refraction very close to 1, and which is commonly used as a reference medium.

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--The complete question is, If the index of refraction of a material is 2, this means that light travels,

a. 2 times as fast in the material as it does in air.

b. 2 times as fast in vacuum as it does in the material.2 times as fast in the material than it does in vacuum.

c. 2 times as fast in air as it does in vacuum.

d. 1/2 as fast in air as it does in the material.--

three capacitors with capacitances of 5.0 micro-farads, 4.0 micro-farads and 8.0 micro-farads are connected in series. what is their equivalent capacitance?

Answers

The equivalent capacitance of the three capacitors connected in series is approximately 1.74 micro-farads.

When capacitors are connected in series, their equivalent capacitance is given by:

1/C_eq = 1/C_1 + 1/C_2 + 1/C_3 + ...

where C_1, C_2, C_3, ... are the capacitances of the individual capacitors.

In this case, the three capacitors are connected in series, so we have:

1/C_eq = 1/5.0μF + 1/4.0μF + 1/8.0μF

To find the equivalent capacitance, we need to calculate the reciprocal of the sum of the reciprocals of the individual capacitances:

1/C_eq = (8 + 10 + 5)/40 μF

1/C_eq = 23/40 μF

C_eq = 40/23 μF

C_eq ≈ 1.74 μF

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a 1000-kg car experiences a net force of 9500 n while slowing down from 30 m/s to how far does it travel while slowing down?

Answers

By using the kinematic equation that relates the distance traveled by an object to its initial velocity, final velocity, acceleration, and time the car travels a distance of 450 meters while slowing down from 30 m/s.

What is a kinematic equation?

A kinematic equation is a mathematical equation that relates the motion of an object to its position, velocity, acceleration, and time. These equations are derived from the principles of classical mechanics and are used to describe the motion of objects in a variety of physical contexts.

The most commonly used kinematic equations are those that describe the motion of an object with constant acceleration, which can be derived from the equations of motion of a particle under constant acceleration. These equations are:

v_f = v_i + at (the equation that relates the final velocity v_f, the initial velocity v_i, the acceleration a, and the time t)d = v_i*t + (1/2)at^2 (the equation that relates the displacement d, the initial velocity v_i, the acceleration a, and the time t)v_f^2 = v_i^2 + 2ad (the equation that relates the final velocity v_f, the initial velocity v_i, the acceleration a, and the displacement d)

To calculate the distance covered by the car while slowing down:

Using Kinematic equation,

d = (v_f^2 - v_i^2 ) / (2a)

where:

d is the distance traveled

v_i is the initial velocity

v_f is the final velocity

a is the acceleration

In this case, the car is slowing down, so the acceleration is negative. We can calculate the acceleration using Newton's second law:

F_net = ma

where F_net is the net force, m is the mass of the car, and a is the acceleration. Solving for a, we get:

a = F_net / m = 9500 N / 1000 kg = 9.5 m/s^2 (in the opposite direction of the initial motion)

Now we can substitute the values into the kinematic equation:

d = (v_f^2 - v_i^2) / (2a) = (0 m/s - 30 m/s)^2 / (2(-9.5 m/s^2)) = 450 m

Therefore, the car travels a distance of 450 meters while slowing down from 30 m/s.

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Define Resonance Physics

Answers

Answer:

Resonance is a phenomenon that occurs when the frequency at which an external force is applied to an object is equal to the natural frequency of vibration of that object.

In physics, resonance is a common occurrence in mechanical, electrical, and acoustical systems.

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