A car has a force of 2000N and a mass of
1000kg. What is the acceleration of the
car?

Answer:

The correct answer would be D. Main Sequence.

Explanation:

Answer: C. Interference, because constructive interference occurred when the wind frequency matched the natural frequency of the bridge.

Explanation:

Answer:

Its letter C

Explanation:

Answer:

C. Infrared and radio waves can pass through very dense materials without interference.

Explanation:

It was my study island question.

Answer:

C. Infrared and radio waves can pass through very dense materials without interference.

Explanation:

i just did it hope it helped

Answer: atoms

Explanation:

Answer:

The answer is B.

Explanation:

If 212 degrees Fahrenheit is 100 degrees Celsius, then 32 degrees Fahrenheit is 0 degrees Celsius.

Answer: B

Explanation:

Answer:

b. acceleration

Explanation:

The principle is that the slope of the line on a velocity-time graph reveals useful information about the acceleration of the object. If the acceleration is zero, then the slope is zero.

The slope of a linear position-time graph tells us the speed of the object. Option A

The rate at which an object's location varies over time is depicted by the slope of a linear position-time graph. The slope in the case of linear motion is the same as the object's speed. It offers details about the object's velocity, or how swiftly it is going.

On the other hand, acceleration describes the rate at which velocity changes. It is not directly connected to a position-time graph's slope. A velocity-time graph can be used to calculate acceleration by dividing the velocity change by the time change to get the slope of the graph.

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Answer:

The nail has become a temporary magnet, while the bar magnet remains a permanent magnet.

Explanation:

Answer:

B, The nail becomes a temp. magnet while the bar magnet remains a permanent magnet

Explanation:

Did it on edgen just now

Answer:

Base

Explanation:

Answer:  base

Explanation: the basic unit of a chemical element.

The image of an object placed 2.0 meters in front of a plane mirror appears 2.0 meters behind the mirror, consistent with the Law of Reflection.

For plane mirrors, the Law of Reflection states that the angle of incidence is equal to the angle of reflection. This principle tells us that the image of an object will appear behind the mirror at the same distance as the object is in front of it. So if an object is placed 2.0 meters in front of a plane mirror, the reflected rays will appear to converge, and the image will seem to be 2.0 meters behind the mirror. Ray 1, traveling normal to the mirror, reflects back on itself, while Ray 2, traveling at a 5° angle, also reflects at a 5° angle on the other side of the normal. Thus, both rays will appear to originate from a point that is the same distance from the mirror as the object, creating a virtual image that is 2.0 meters behind the mirror.

Answer:

Wavelength x Frequency

Answer: light will travel in a straight line undeviated. Thus, there will be no refraction.

Explanation:

If the light hits the interface at angle equal to zero, then light movement is perpendicular to the plane of the second medium. And it will pass through undeviated. Therefore, the angle of refraction will also equal to zero. That is, there is no refraction.

Final answer:

Light entering a new medium at a 0 degree angle of incidence changes speed due to refraction but continues in a straight direction, and if it reflects, a 180° phase change occurs.

Explanation:

When light travels from one medium to another with a different index of refraction at an angle of incidence of 0 degrees, the light enters the new medium without changing its direction. This phenomenon is based on the principles of refraction, although at 0 degrees, the refraction is not visually evident since the light continues in a straight path. However, the speed of the light changes as it moves into the medium with a different refractive index. Moreover, if the light reflects from a medium with an index of refraction greater than that of the medium it is traveling from, a 180° phase change or a (lambda/2) shift occurs.

Answer:

Pioneer species

Explanation:

Pioneer is when someone does something that hasnt been donne before

Answer:

a. a 1,000-kg car

Explanation:

Q: F = ma

(a) F = 100n

    M = 1000vg

    A = ?

--> F = ma  

--> a = f/m

     a = 1000/1000                                                                                                                                        a= 1m/8*2                                                                                                                                           (b)   F = 1000N

      m = 2000 vg

       a = ?

--> F = ma

     a = f/m

     a = 1000/2000

     a = 0.5 m/8*2

a) The acceleration of the engine of the [tex]1000kg[/tex] mass of car is 1m/s².

b) The acceleration of the engine of the [tex]2000kg[/tex] mass of car is 0.5m/s².

Given the data in the question;

To determine the acceleration of each of the two cars,  we use Newton's Second Law of Motion:

[tex]F = m*a[/tex]

Where m is mass of the object and a is the acceleration.

For Car 1 { mass 1000kg}

[tex]1000N = 1000kg * a\\\\1000kgm/s^2 = 1000kg * a\\\\a = \frac{1000kgm/s^2}{1000kg}\\\\a = 1m/s^2[/tex]

Therefore, given the force exerted, the acceleration of the engine of a [tex]1000kg[/tex] mass of car is 1m/s².

For Car 2 { mass 2000 kg }

[tex]1000N = 2000kg * a\\\\1000kgm/s^2 = 2000kg * a\\\\a = \frac{1000kgm/s^2}{2000kg}\\\\a = 0.5m/s^2[/tex]

Therefore, given the force exerted, the acceleration of the engine of a [tex]2000kg[/tex] mass of car is 0.5m/s².

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Radiation is the process that does not require the presence of particles of matter because it has the ability to propagate without the presence of any medium.

Radiation refers to the light energy that comes from a source such as sun. This radiation travels through space at the speed of light that has a wave like properties.

So we can conclude that radiation is the process that does not require the presence of particles of matter because it has the ability to propagate without the presence of any medium.

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Answer:

c

Explanation:

Answer:

About 133 db.

Explanation:

Sound Intensity Level in db (SIL db) is equal to 10log (base 10) times the ratio of the sound intensity at 200 watts (I) relative to the sound intensity of  the reference sound intensity (I sub 0), which by default is equal to 10⁻¹² W/m² or 0 dB.

I = 200 w / 10 m^2 = 20 w per square meter  

I sub 0 = 10^-12 w per square meter

SIL = 10log ( I / I sub o) = 20 / 10^-12 = 10log ( 20^12) = 10 ( 13.3 ) = 133 db

Hope I typed this part correctly. Hard to get it in without being able to do exponents, etc. :D

option B) [tex]+d_0}[/tex] means that the image is real based on the sign convention for image distance.

In the context of optical systems and lenses, the sign convention for image distance (d) is as follows:

So, in the given options:

A) [tex]-d_{i}[/tex]: Negative image distance, implying a virtual image.

B) [tex]+d_{0}[/tex]: The variable "l" is not defined, so it's unclear.

C) [tex]-d_{0}[/tex]: Negative image distance, implying a virtual image.

D) [tex]+d_{l}[/tex]: Positive image distance, indicating a real image.

Answer:

The value of current generated would increase.

Explanation:

Electromagnetic induction is the process by which an electromotive force is induced due to a variation of magnetic field.

The induced current is directly proportional to rate at which the coil cuts the magnetic field. Using more powerful battery in the experiment would increase the rate at the the coil cuts the magnetic field, therefore increasing the rate of variation in the magnetic field. This effect would cause a greater deflection on the galvanometer's scale, showing an increase in the current generated.

This experiment proves that an alternating current can be produced from magnetic field.

Final answer:

A more powerful battery in Faraday's experiments would have increased the induced electromotive force (EMF) causing the galvanometer to register a more significant deflection corresponding to the stronger magnetic field produced when the primary circuit was connected or disconnected.

Explanation:

Effect of a More Powerful Battery on Faraday's Experiment

British physicist Michael Faraday's experiments on electromagnetic induction were ground-breaking in showing the connection between electricity and magnetism. The use of a more powerful battery in Faraday's experiments would have affected the induced electromagnetic force (EMF) in the secondary coil. When Faraday connected his apparatus—comprising two coils, one known as the primary coil connected to a battery, the other referred to as the secondary coil connected to a galvanometer— he noticed an effect on the galvanometer only when the magnetic field was changing.

If a more powerful battery had been used, the current flowing through the primary coil would have been stronger. This would have created a more intense magnetic field. According to Faraday's law, the induced EMF in a circuit is proportional to the rate of change of magnetic flux. Therefore, with a stronger initial magnetic field, the rate of change of this field, and thus the induced EMF upon connecting and disconnecting the battery, would have been greater. The galvanometer would have registered a more significant deflection when Faraday either established or broke the circuit, corresponding to the moments of connection and disconnection of the battery.

Explanation:

: Doppler Effect works on both light and sound objects. For instance, when a sound object moves towards you, the frequency of the sound waves increases, leading to a higher pitch. Conversely, if it moves away from you, the frequency of the sound waves decreases and the pitch comes down.

Sounds at their source can be affected by various factors, including the Doppler effect and vibrations.

How this Numerous factors affect the properties of sound at its source

Vibrations:

The frequency of a sound dictates its pitch. The frequency and pitch of an object increase with its rate of vibration. Consider a guitar string that has been plucked quickly; this produces a higher frequency and higher-pitched sound.

Amplitude: This controls the sound's volume. The amplitude and loudness of the sound increase with the displacement of the vibrating object. Imagine pounding a drum more forcefully; the drum vibrates more, increasing the amplitude and producing a louder bang.

Form and composition of the oscillating object: The way that various materials and shapes vibrate affects the sound that is produced. For instance, the vibrations of a thin versus a thick drumhead will produce various sounds.

Force of excitation: Another important factor is how the object is made to vibrate. A soft pick versus a forceful strum is audible while picking a guitar string.

Doppler Effect:

This amazing phenomena varies the perceived pitch of a sound according on the listener's and the sound source's relative motion.

Moving source: Picture an ambulance driving toward you and sounding its siren. The siren seems to get louder as it approaches (you're really picking it on a higher frequency because the source is heading in your direction). On the other hand, it appears that the siren becomes quieter as the ambulance pulls away.

Listener in motion: A stationary sound source, such as a ringing bell, will sound louder in pitch if you run in that direction. The sound of the bell will become quieter as you run away from it.

These are but a few of the primary elements influencing sounds at the source. Recall that the intricate interaction of these elements creates the varied environment we encounter on a daily basis!

Answer:

Liquid

Explanation: It can't be gas because gases are all around us and we can still see light. For solids it can't even move through a solid. Ex: If you're in a solid dome made of rock you can't get any light through. Let me know if I'm right!

Answer:none of the Above

Explanation:Sound could travel through all matters but Nothing travels faster than light Energy

Answer:

The answer is D

Explanation:

Got it right on gizmo

From the given parent genotypes, the offspring D (ff EE)  mouse could not have been born to these parents. Hence, option D is correct.

A person's entire genetic makeup is known as their genotype.  Genotype can also refer to the genotypes or variations that a person carries in a certain gene or genetic region.  Ploidy, another term for the number of books of each chromosomal found in a species, is a factor that determines how many variants an individual should have in a given gene.

A person has two alleles for each gene in a polymorphic species like humans, since there are two complete sets of chromosomes in these organisms. It is said that a genotype is homozygous if both alleles are the same. Heterozygous genotypes are those when there are two or more distinct alleles.

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Answer:

Wavelength        

Explanation:

A wave can be defined in terms of its frequency, wavelength, amplitude etc.

The distance between two corresponding parts of a wave, for example from crest to crest or trough to trough is called its wavelength.

It is represented by [tex]\lambda[/tex].

The relation between frequency, speed of a wave and its wavelength is given by :

[tex]v=f\lambda[/tex]

So, the correct option is (4) "wavelength".

Answer:

Option A needs more neutrons to gain enough nuclear binding forces to overcome the repulsion.Hope this answer helps.

Final answer:

As the number of protons in a nucleus increases, the nucleus requires more neutrons to stabilize the increased electrostatic repulsion between protons by increasing the nuclear binding force.

Explanation:

When an atom's nucleus gets larger with more protons, the electric charges repelling these protons also increase. To help stabilize the nucleus against this repulsion, it needs additional neutrons, which do not carry any electric charge, and provide additional nuclear binding forces to balance out the electrostatic repulsion between protons. The strong nuclear force between neutrons and protons is crucial to keep the nucleus intact, and it is stronger and shorter-ranged than the Coulomb force (electrostatic force) that causes repulsion between the positively charged protons.

Therefore, to compensate for the greater electric charge and maintain nuclear stability, an atom requires more neutrons, which adds to the nuclear binding force. This is most relevant for heavy nuclei, where neutrons greatly outnumber protons, to keep the repulsive forces at bay and the nucleus stable. For example, in heavier elements, stable isotopes typically have a greater number of neutrons than protons due to this requirement for a balanced nuclear force. In summary, the correct answer is:

A.) needs more neutrons to gain enough nuclear binding forces to overcome the repulsion.

The acceleration of the airplane increasing its speed from 200 km/h to 300 km/h over 2 hours is 0.00386 m/s².

To calculate the acceleration of an airplane which increases its speed from 200 km/h to 300 km/h over a period of 2 hours, you need to use the formula for acceleration, which is the change in velocity Δv divided by the time interval Δt. In this case, the change in velocity is 300 km/h - 200 km/h = 100 km/h.

However, since acceleration is typically expressed in m/s², we should first convert the speeds from km/h to m/s. Doing so, we get approximately 55.56 m/s - 27.78 m/s = 27.78 m/s as the change in velocity.

Given the time interval is 2 hours, it should also be converted to seconds, resulting in 2 hours × 3600 seconds/hour = 7200 seconds.

The acceleration can now be calculated as:

Δv = 27.78 m/s
Δt = 7200 s
Acceleration (a) = Δv / Δt = 27.78 m/s / 7200 s = 0.00386 m/s²

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Answer:160 g

Explanation:Start with the equation [tex]KE = 1/2mv^{2}.[/tex] This becomes [tex]m = 2KE/v^{2}[/tex]. Replace the variables with values and get (2*63)/28^2 = 160 g.

Final answer:

To find the mass of the puck, we use the kinetic energy formula: KE = ½mv². With the given kinetic energy of 63 Joules and velocity of 28 m/s, the calculation reveals that the mass of the puck is 0.1607 kg.

Explanation:

The student has asked a physics question relating to the concept of kinetic energy and its relation to mass and velocity. Kinetic energy (KE) is given by the equation KE = ½mv² where m represents mass and v represents velocity. Given kinetic energy is 63 Joules and velocity is 28 m/s, we will solve for mass (m).

Step 1: Write down the kinetic energy formula: KE = ½mv²

Step 2: Plug in the values: 63 J = ½m(28 m/s)²

Step 3: Simplify and solve for m:
63 J = ½m(784 m²/s²)
63 J = 392m (Joules)
m = 63 J / 392 (J/kg)
m = 0.1607 kg

The mass of the puck is 0.1607 kilograms.

Answer: B

Longitudinal wave

Explanation:

Transverse waves have crests and troughs

Longitudinal waves have compressions and rarefactions. A compression is where the density of the wave medium is highest. While a rarefaction is where the density of the wave medium is lowest.

Since sound wave is a longitudinal wave. And longitudinal wave exists apart from sound, we can therefore conclude that it's a longitudinal wave in spring.

Answer

C. Combined wave

Explanation:

I just took it

Answer:

Hi there, so gamma-ray detection from tracers: Pet Scan, assess disease progression, tissue function: Nuclear Medicine Scan, a hybrid scan that involves nuclear medicine and x-ray imaging: PET/CT, and lastly radiation treatment near or within the tumor from implanted "seeds": Brachytherapy. Hope this helps <3.

Explanation:

btw you cute <3.

Answer:

Pet Scan

Nuclear Medicine

PET/CT

Brachytherapy

A constant force of 5.00 N acts on a 2.50 kg object for 10.0 s. The changes in the object’s momentum is 50 kg-m/sec and velocity 20 m/sec.

A force is an effect that can alter an object's motion according to physics. An object with mass can change its velocity, or accelerate, as a result of a force. An obvious way to describe force is as a push or a pull. A force is a vector quantity since it has both magnitude and direction.

The acceleration of body,

a = 5/2.5

a = 2 m/sec²

change in velocity,

v - u = at = 2.10

change in velocity = 20 m/sec

change in momentum = 20. (2.50)

                                      =  50 kg-m/sec.

A constant force of 5.00 N acts on a 2.50 kg object for 10.0 s. The changes in the object’s momentum is 50 kg-m/sec and velocity 20 m/sec.

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The change in the object's momentum is 50.0 kg·m/s, and the change in the object's velocity is 20.0 m/s.

To find the change in the object's momentum, we use the impulse-momentum theorem, which states that the impulse applied to an object is equal to the change in its momentum. Impulse is defined as the product of the force and the time interval over which the force is applied. Mathematically, this is expressed as:

[tex]\[ \text{Impulse} = \text{Force} \times \text{Time} \][/tex]

Given that the force (F) is 5.00 N and the time (t) is 10.0 s, we can calculate the impulse (I):

[tex]\[ I = F \times t = 5.00 \, \text{N} \times 10.0 \, \text{s} = 50.0 \, \text{N\·s} \][/tex]

Since 1 N = 1 kg·m/s², the impulse can also be written as:

[tex]\[ I = 50.0 \, \text{kg\·m/s}^2 \cdot \text{s} = 50.0 \, \text{kg\·m/s} \][/tex]

This impulse is the change in the object's momentum [tex][ \Delta p][/tex], so:

[tex]\[ \Delta p = I = 50.0 \, \text{kg\·m/s} \][/tex]

To find the change in the object's velocity [tex][ \Delta v][/tex], we use the definition of momentum (p), which is the product of mass (m) and velocity (v):

[tex]\[ p = m \times v \][/tex]

The change in momentum can also be expressed as:

[tex]\[ \Delta p = m \times \Delta v \][/tex]

We can solve for [tex][ \Delta v][/tex] by rearranging the equation:

[tex]\[ \Delta v = \frac{\Delta p}{m} \][/tex]

Given that the mass (m) of the object is 2.50 kg, we can calculate the change in velocity:

[tex]\[ \Delta v = \frac{50.0 \, \text{kg\·m/s}}{2.50 \, \text{kg}} = 20.0 \, \text{m/s} \][/tex]

Therefore, the change in the object's velocity is 20.0 m/s.

Answer:

13.46

Explanation:

formula is Wavelength x Frequency