This is 20% my grade please and also give an explanation for it cause I don’t understand it

Answer: D. It needs a medium to travel.

Explanation:

One way to categorize waves is on the basis of the direction of movement of the individual particles of the medium relative to the direction that the waves travel. Categorizing waves on this basis leads to three notable categories: transverse waves, longitudinal waves, and surface waves.

(a) The initial kinetic energy (KE) of the automobile is 375,000 J

(b) The final KE will also be 375,000 J.

(c) The work done on the automobile is zero

The initial kinetic energy (KE) of the automobile can be found using the formula:

KE = 1/2mv²

where;

KE = 1/2 x 1200 kg x (25 m/s)²

KE  = 375,000 J

The final KE of the automobile will be the same as the initial KE if the velocity remains constant. However, if there is a change in velocity, the final KE can be found using the same formula as above.

The change in KE can be found by subtracting the initial KE from the final KE, or by using the work-energy theorem:

ΔKE = W

where;

Assuming there is no external work done on the automobile, the change in KE will be zero.

Therefore, the final KE will also be 375,000 J.

The work done on the automobile can be found using the work-energy theorem:

W = ΔKE = 0 J (since there is no change in KE)

Therefore, the work done on the automobile is zero.

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The answer is:

D. 7.6m

Answer:

Explanation:

a. The compact car going 70 MPH has more kinetic energy than the tractor trailer going 15 MPH. Kinetic energy is proportional to the square of the velocity, so even though the tractor trailer may have more mass, the higher velocity of the compact car results in greater kinetic energy.

b. The SUV and the pickup truck have the same kinetic energy since they have the same mass and velocity.

c. The compact car going 45 MPH has the most kinetic energy since it has the highest velocity out of the three vehicles. The SUV going 35 MPH has less kinetic energy, and the school bus going 15 MPH has the least kinetic energy.

Answer:

Most likely the answer is D;

Explanation:

Because they formed from the same molecular cloud.

Bucky definitely will live shorter. And we can detect Bucky faster due it's enormous rate of burring fuel.

Both of the stars will have the same heavy elements.

The two stars, Bucky and Badger are formed in the same giant molecular cloud. Among them Bucky has five solar mass, which is five times the solar mass of Badger.

As a result of the higher solar mass of Bucky, its fuel will burn up very faster than Badger. So, Bucky will have shorter life. Also it will spin faster and become a protostar in short time.

Since, both the stars, Bucky and Badger are formed in the same giant molecular cloud, both of them will have the same heavy elements.

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that the relative placements of the charges as well as their multiples affect a set of ions' potential energy. When the specific charge have the same sign or have equal signs, the energy is positive. Or else, it is negative.

The force acting just on two objects affects the potential energy formula. The formula for gravitational force is P.E. (= mgh, where g seems to be the acceleration caused by gravity (9.8 m/s2 at the earth's surface) while h represents the elevation in metres.

As a result, the system's potential energy equals the sum of a work that was done to set up the entire system of two counts. The potential energy that exists in the combination of two charges in such an external field can be stated as follows: q1V(r1) = q2V(r2) + (q1q2/4or12).

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Answer:

Explanation:

To solve this problem, we can use the following kinematic equation:

d = 1/2at^2 + vt

where d is the distance, a is the acceleration, t is the time, and v is the initial velocity.

We know that the car is starting from rest, so v = 0. We also know that the acceleration is 5 m/s^2 and the distance to be covered is 200 m. Plugging these values into the equation, we get:

200 = 1/2(5)t^2 + 0

Simplifying:

t^2 = 80

Taking the square root of both sides:

t = 8.9 s

Therefore, it would take the car approximately 8.9 seconds to cover a distance of 200 meters from rest with an acceleration of 5 meters per second squared.

Answer:

Explanation:

First, we need to use the formula for the speed of an object in circular orbit:

v = sqrt(GM/R)

where G is the gravitational constant, M is the mass of the Earth, R is the distance between the center of the Earth and the satellite.

Converting the units to meters and kilograms:

G = 6.67 × 10^-11 m^3/kg s^2

M = 5.98 × 10^24 kg

R = (36000 + 6.37 × 10^6) × 1000 = 4.23 × 10^7 m

Plugging in the values:

v = sqrt((6.67 × 10^-11) × (5.98 × 10^24) / (4.23 × 10^7))

v ≈ 3075.58 m/s

Finally, we can convert this to miles per hour:

v = 3075.58 m/s x (3600 s/hr) / (1609.34 m/mi) = 6873.18 mi/hr

Therefore, the answer is option A. 306889 mi/hr is incorrect.

The speed of the wave with the period given above would be = 3m/s

The wave length generated by the rope = 6m

The period of the wave = 2s

But the formula use for calculate the speed of a wave = v=λf

Where v = speed

λ= wavelength = 6m

f = Frequency.

Also F = 1/T

Where T = period = 2s

F = 1/2 = 0.5 Hz

V = 6× 0.5

V = 3m/s

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Answer:

Explanation:

We can use the following kinematic equation to solve this problem:

y = y0 + tanθ(x - x0) - (gx²)/(2v₀²cos²θ)

where

y = 0 (since the target is at the same height as the release height)

y0 = 0

x0 = 0

x = 82.0 m

v₀ = 40.0 m/s

g = 9.81 m/s²

We want to solve for θ.

Rearranging the equation and substituting the values, we get:

tanθ = (xg)/(2v₀²)

θ = tan⁻¹[(xg)/(2v₀²)]

θ = tan⁻¹[(82.0 m)(9.81 m/s²)/(2(40.0 m/s)²)]

θ ≈ 18.1°

Therefore, the archer must release the arrow at an angle of approximately 18.1 degrees to hit the bull's-eye.

Answer:

In this problem, the harp string is fixed at both ends, so it is a standing wave with nodes at both ends and an antinode in the center. The frequency of the wave is given as 440 Hz, and the length of the string is 30.5 cm.

(a) To find the wavelength of the wave, we can use the formula:

λ = 2L/n

where λ is the wavelength, L is the length of the string, and n is the number of nodes. In this case, n = 2 (since there are nodes at both ends) and L = 30.5 cm, so we have:

λ = 2(30.5 cm)/2 = 30.5 cm

Therefore, the wavelength of the wave is 30.5 cm.

(b) To find the speed of the wave on the string, we can use the formula:

v = fλ

where v is the speed of the wave, f is the frequency of the wave, and λ is the wavelength. In this case, f = 440 Hz and λ = 30.5 cm, so we have:

v = (440 Hz)(30.5 cm) = 13420 cm/s

Therefore, the speed of the wave on the string is 13420 cm/s

Explanation:

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Answer:

13.8 (kgm)/s

Explanation:

p(momentum) = m (mass) * v (velocity)

p= 2.3 * 6

p = 13.8

Plugging in the values of the length and diameter, along with the error value, the error in the volume of the cylinder is approximately 1.27 cm³.

Error in measurement refers to the deviation or difference between the true or expected value and the measured value of a physical quantity. The presence of errors in measurement can affect the accuracy and precision of the results obtained.

To compute the possible error in the volume of the cylinder, we first need to calculate the volume of the cylinder using the measured values of its length and diameter:

V = πr²h

r = d/2 = 2.1/2 = 1.05 cm

V = π(1.05)²(8.9) = 31.79 cm³

Now, we need to determine the possible error in the volume, which can be calculated using the formula:

ΔV = V × √[(Δd/d)² + (Δh/h)²]

where Δd and Δh are the uncertainties in the diameter and length measurements, respectively. Substituting the given values, we get:

ΔV = 31.79 × √[(0.1/2.1)² + (0.1/8.9)²] = 1.27 cm³ (approx.)

Therefore, the possible error in the volume of the cylinder is approximately 1.27 cm³.

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Answer:

Play tennis, nothing can train you better for the sport than the sport itself. However, tennis is one of those unique sports that combine nearly all components of fitness including power, agility, speed, flexibility, reaction time, balance, coordination, cardiovascular endurance and muscular endurance.

Explanation:

Answer:

Speed up, friction is the force applied when slowing down.

It would be positive work because an applied force would cause an object to displace and go into a certain direction sending it into a state of motion, hence generating kinetic energy.

In the ordinary sense, the kinetic energy of a body is the energy that it possesses by virtue of its motion. In fact it is equal to the work that a moving body can do before coming to rest. In other words, it is equal to the amount of work required to stop a moving body.

Using the elementary third equation of motion and Newton's second law, the kinetic energy of a body of mass m and velocity v is given by the simple mathematical relation:

[tex]K=\frac{mv^2}{2}[/tex]

But this identity holds good provided that the body moves with a velocity much smaller than the velocity of light in vacuum.

Now what happens if the velocity of the body is sufficiently large?

From the expression from the relativistic linear momentum of a body of rest mass [tex]m_0[/tex] moving with velocity [tex]v[/tex] is given by

p=m0v1−v2c2−−−−−−√=m0γv

∴K=∫vd(m0γv)

=v.m0γv−∫m0γvdv

=m0γv2−m0∫vdv1−v2/c2−−−−−−−−√

Let u=1−v2/c2⟹du=−2vc2dv

∴K=m0γv2+m0c22∫du√u

=(m0v2+m0c2(1−v2c2))γ−E0

K=m0γc2−E0

Now if the magnitude of velocity is zero, then the above equation takes the form

0=m0c2−E0⟹E0=m0c2

So finally the kinetic energy of a body is given by the general relation:

K=m0γc2−m0c2=m0c2(γ−1)

Now if the velocity is small enough, then this equation closely approximates the classical relation for kinetic energy which can be ensured by expanding γ

by the binomial theorem.

Albert Einstein was one of the greatest physicists of all time and is widely considered a genius. He made groundbreaking contributions to our understanding of the universe, including the theory of relativity and the famous equation E=mc².

Einstein's intelligence can be seen in his early academic achievements. He excelled in math and physics, and by the age of 16, he was already doing advanced physics research on his own. He went on to earn a PhD and made significant contributions to physics, publishing numerous papers and developing revolutionary theories.

Moreover, his ability to think creatively and critically is evidenced by his approach to problem-solving. He was known for his thought experiments, which allowed him to explore complex concepts and theories without the need for expensive equipment or experiments. He was also skilled at developing intuitive and elegant solutions to complex problems.

Therefore Einstein's intelligence is widely recognized and respected by scientists, scholars, and the general public alike. He is considered one of the most brilliant minds in history and has made a lasting impact on our understanding of the universe.

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Answer:

It depends on how they are made.

Explanation:

Rubber balloons are not always spherical in shape. When filled with air, the inflation forms a balance between the balloon material, including its shape and thickness and its elasticity and the pressure of the air. That’s what determines its shape. Although a sphere is often the shape, it could be tubular, offset, and most other shapes.

Answer:

Explanation:

To choose a material for the handrails of the playhouse, we need to consider its strength and durability. One option could be stainless steel, which has a high tensile strength and is resistant to corrosion and weathering. Another option could be treated wood, which is also strong and can be treated to resist moisture and insects. Ultimately, the choice would depend on factors such as cost, aesthetics, and availability of materials.

A telescope with a 40-inch primary lens has four times the light-gathering power compared to a telescope with a 20-inch lens. Space telescope data is important for studying celestial objects across the electromagnetic spectrum and provides comprehensive information. Telescopic data helps determine distances between objects through techniques like redshift measurement and the cosmic distance ladder.

The relative light-gathering power of a telescope is determined by the area of its primary lens or mirror. In this case, the telescope with the 40-inch primary lens has four times the light-gathering power compared to the telescope with the 20-inch lens. This is because the area of the 40-inch lens is four times larger than the area of the 20-inch lens.

Space telescope data is important across the electromagnetic spectrum because it allows astronomers to study celestial objects in different wavelengths, revealing information that is not accessible through visible light observations alone. By using data from telescopes that operate in various parts of the electromagnetic spectrum, astronomers can gather more comprehensive information about the universe.

One way telescope data helps determine distances between celestial objects is through the measurement of redshift. Redshift occurs when light from distant objects is stretched to longer wavelengths due to the expansion of the universe. By analyzing the amount of redshift in the light from a celestial object, astronomers can estimate its distance. This method is a part of the cosmic distance ladder—a set of techniques used to determine distances to different objects in the universe.

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Answer: Max Planck

He won the Nobel Prize for Physics in 1918.

The stone will be moving at a speed of approximately 84.4 meters per second just before it hits the ground, neglecting friction.

This problem can be solved using the laws of kinematics and conservation of energy. The potential energy of the stone at the top of the cliff is converted to kinetic energy as it falls. We can equate the potential energy at the top of the cliff to the kinetic energy just before hitting the ground.

Potential energy = mgh,

Where

Kinetic energy = (1/2)mv^2,

Where

Equating these two expressions and solving for v, we get:

mgh = (1/2)mv^2

v^2 = 2gh

v = sqrt(2gh)

Plugging in the given values, we get:

v = sqrt(2 x 9.8 m/s^2 x 360 m) = 84.4 m/s

Therefore, the stone will be moving at a speed of approximately 84.4 meters per second just before it hits the ground, neglecting friction.

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w is 1.07 × 10^4, expressed in scientific notation with the correct number of significant figures.

The equation given is:

Ψ = w/(yz^2)

We Substitute the given values, we get:

Ψ = w/(y × z^2) = 1.1 × 10^3 × 2.48 × 10^-2 × 6.000 = 1.6464

solving  for w and rearranging  the equation as:

w = Ψ × y × z^2

We Substitute the given values, we get:

w = 1.6464 × 37 × (14)^2 = 10,722.7584

we  round the value of w to three significant figures, since the values of y, z, and Ψ are given with three significant figures, in order to express the result in scientific notation with the correct number of significant figures,

Rounding 10,722.7584 to three significant figures gives 10,700. Therefore, the value of w is:

w = 1.07 × 10^4

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The response that enumerates the unbalanced forces is a bunch of people playing tug-of-war with two young children on one side and two huge adults on the other.

In a tug of war, if both teams are applying the same amount of force on the rope, balanced forces are displayed. The forces pulling on the rope are opposing in direction and of equal magnitude.

The imbalanced soldiers are acting onto the football if you kick it and it goes from one area to another. After being kicked, the ball goes from one location to another. An illustration of an uneven force is this.

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Assessing your fitness level is important because it help in tracking your progress and determine if you are making improvements. Regular assessments can help you identify areas where you may need to make adjustments to your fitness routine to achieve your goals. By assessing fitness level, you can identify areas where you may be weaker or less flexible. This information can help you design a fitness routine that addresses these areas and reduces our risk of injury.

Regular physical activity and exercise can improve overall health and reduce the risk of chronic diseases such as heart disease, diabetes, and obesity. By understanding your fitness level, you can design an exercise routine that helps you achieve optimal health and wellness.

Answer:

Explanation:

Theoretical muzzle velocity is calculated based on various physical models and assumptions, such as the conservation of energy and momentum, the properties of the propellant and barrel, and other factors that can affect the velocity of the projectile as it exits the muzzle of the firearm. However, in practice, there can be many factors that can influence the actual velocity of the projectile, which can result in a measured muzzle velocity that is higher than the theoretical value. Some possible reasons for this discrepancy include:

Variation in propellant burn rate: Theoretical models assume a constant burn rate for the propellant, but in practice, there can be variations in the rate at which the propellant burns due to differences in temperature, humidity, and other factors. This can affect the velocity of the projectile as it exits the muzzle.

Barrel condition: Theoretical models assume a perfectly smooth, straight barrel, but in practice, barrels can have imperfections such as rough spots or bends that can affect the velocity of the projectile as it travels through the barrel.

Environmental factors: Theoretical models assume ideal conditions, but in practice, there can be factors such as wind, temperature, and humidity that can affect the velocity of the projectile as it travels through the air.

Measurement errors: Measuring the muzzle velocity of a projectile can be challenging, and errors in measurement can result in a measured velocity that is higher than the actual value.

Human error: Human factors such as shooter error, inconsistency in handling and loading the firearm, and other factors can also contribute to discrepancies between theoretical and measured muzzle velocities.

Overall, while theoretical muzzle velocity can provide a useful estimate of the velocity of a projectile exiting a firearm, there are many factors that can influence the actual velocity in practice, leading to measured velocities that are higher than the theoretical value.

The spring scale read just before the mass touches the lower spring is 80.36N, the spring constant for the lower spring is 2765N/m and at 2.9cm length the scale will read zero.

Given the mass of spring = 8.2kg

The force exerted for compressing of spring = 14N

The compression in spring = 2.4cm = 0.024m

(A.) Initially the spring scale reads only the weight of the mass = mg

W = 8.2 * 9.8 = 80.36N

(B) Let the value of spring constant = k

The net force exerted so that the scale reads(F') = 80.36N - 14 = 66.36N

We know that according to Hooke's law the force exerted on spring F = kx such that:

F' = kx then:

66.36 = k * 0.024

k = 66.36/0.024 = 2765N/m

(C) the compression where scale reads zero = x'

The scale reads zero when the restoring force equals to the weight of the mass then the scale reads zero such that:

x' = 80.36/2765 = 0.029m = 2.9cm

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Answer: B is insulating and A is conducting

Explanation:

I really hope that's right. If not, I am so sorry.

Answer:  a stretch of 2

Explanation: because it 2 (x) - 3

The speed of the wave would be0.48 m/s.

The speed of a wave is given by the formula:

v = λ/T

where v is the wave speed, λ (lambda) is the wavelength, and T is the period.

To solve this problem, we need to know the wavelength of the wave. We can find the wavelength using the formula:

λ = 2L

where L is the length of the rope. Substituting L = 6 m, we get:

λ = 2 × 6 m = 12 m

Now we can use the formula for wave speed:

v = λ/T

Substituting λ = 12 m and T = 25 s, we get:

v = 12 m/25 s = 0.48 m/s

Therefore, the speed of the wave is 0.48 m/s.

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Answer:

true

Explanation:

Answer:

True

Explanation:

Glucose is one of the reactants in cellular respiration, which is the process by which cells generate energy in the form of ATP (adenosine triphosphate). Glucose is broken down into simpler molecules in a series of metabolic reactions that occur in the presence of oxygen (aerobic respiration) or in the absence of oxygen (anaerobic respiration). The breakdown of glucose ultimately results in the release of energy that is used to produce ATP, which is the main source of energy for cellular activities.