An object emits a range of electromagnetic energy wavelengths because.

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Answer 1

An object emits a range of electromagnetic energy wavelengths because it has a temperature that is above absolute zero. This results in the emission of thermal radiation, which is a type of electromagnetic radiation. When an object is heated, the atoms and molecules within it gain energy and begin to move more quickly. This results in the release of electromagnetic radiation in the form of photons of light. The wavelength of this light depends on the temperature of the object.

The relationship between temperature and wavelength is described by Wien's Law, which states that the wavelength of the peak emission of thermal radiation is inversely proportional to the temperature of the object. This means that the hotter an object is, the shorter the wavelength of the peak emission of its thermal radiation.

The range of electromagnetic energy wavelengths emitted by an object is called its electromagnetic spectrum. This spectrum can range from radio waves with long wavelengths to gamma rays with short wavelengths. Different objects emit different parts of the electromagnetic spectrum depending on their temperature and composition.

For example, the Sun emits a range of electromagnetic energy wavelengths, including visible light, ultraviolet radiation, and infrared radiation. The Earth also emits thermal radiation in the form of infrared radiation.

In addition to thermal radiation, objects can emit other types of electromagnetic radiation depending on their composition and state. For example, stars emit light at specific wavelengths depending on the elements present in their atmosphere. X-ray machines emit high-energy X-rays that can pass through soft tissue but are absorbed by denser materials like bone.

In conclusion, an object emits a range of electromagnetic energy wavelengths because of its temperature, which causes it to emit thermal radiation. The specific wavelengths emitted depend on the temperature and composition of the object. Other factors, such as the object's state and composition, can also influence the types of electromagnetic radiation emitted.

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Related Questions

A 5-kg object is moving to the right at 4 m/s and collides with another object moving to the left at 5 m/s. The objects collide and stick together. After the collision, the combined object:

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After the collision, the two objects stick together and move as one. Their total mass is m1 + m2 = 5 kg + m2.

How to determine the effect of the collision

In this case, we can apply the principle of conservation of linear momentum

The initial momentum of the first object (P1_initial) is given by its mass (m1) times its velocity (v1), which is [tex]5 kg * 4 m/s = 20 kg*m/s.[/tex]

Therefore, the total initial momentum [tex](P_{total_initial}) is P1_{initial} + P2_{initial} = 20 kg*m/s - m2 * 5 m/s.[/tex]

After the collision, the two objects stick together and move as one.

Their total mass is m1 + m2 = 5 kg + m2.

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A force of 25 N is applied to a screwdriver to pry the lid off of a can of paint. The screwdriver applies 75 N of force to the lid. What is the mechanical advantage of the screwdriver?

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Answer:

The mechanical advantage of the screwdriver is 3.

Explanation:

The mechanical advantage can be calculated using the formula: mechanical advantage = output force / input force. In this case, the output force is 75 N (the force applied by the screwdriver to the lid), and the input force is 25 N (the force applied to the screwdriver).

Therefore, the mechanical advantage is:

mechanical advantage = 75 N / 25 N = 3.

Hence, the mechanical advantage of the screwdriver is 3.

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A stevedore slides a crate along a dock with a 50 kg horizontal force of 175 N. The opposing force of friction is 120 N. If started from rest, what is the crates’s final velocity after 0.5s?

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To determine the crate's final velocity after 0.5 seconds, we can use the concept of Newton's second law of motion, which states that the net force acting on an object is equal to its mass multiplied by its acceleration.

In this scenario, the stevedore applies a horizontal force of 175 N to move the crate along the dock. However, there is also an opposing force of friction acting in the opposite direction, which has a magnitude of 120 N. The net force is the difference between these two forces, so we can calculate it as follows:

Net force = Applied force - Frictional force

Net force = 175 N - 120 N

Net force = 55 N

Now, using Newton's second law of motion, we can determine the acceleration of the crate. Rearranging the equation, we have:

Net force = mass * acceleration

55 N = 50 kg * acceleration

Solving for acceleration:

acceleration = 55 N / 50 kg

acceleration = 1.1 m/s²

Since we know the initial velocity of the crate is zero (as it starts from rest), and we want to find the final velocity after 0.5 seconds, we can use the equation of motion:

final velocity = initial velocity + (acceleration * time)

Plugging in the values:

final velocity = 0 + (1.1 m/s² * 0.5 s)

final velocity = 0.55 m/s

Therefore, the crate's final velocity after 0.5 seconds is 0.55 m/s. This means that after being subjected to a 175 N force and experiencing 120 N of friction, the crate gains a velocity of 0.55 m/s in the direction of the applied force.

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Assuming a constant density, the size of an object scales as its mass raised to what power?.

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Assuming a constant density, the size of an object scales as its mass raised to the power of 1/3 (one-third).

The mass, density, and volume of an object are related by the equation:

ρ = m/Vwhere ρ is the density, m is the mass, and V is the volume.

We can write this equation as

V = m/ρThis equation can be used to find the relationship between the mass and volume of an object of constant density.

Assume that we have two objects of the same material with masses m1 and m2.

We can find the ratio of their volumes by taking the ratio of their masses and density as follows:

V1/V2 = m1/ρ / m2/ρV1/V2 = m1/m2V1/V2 = (m1/m2)^(1/3)

This shows that the ratio of the volumes of two objects with the same density is proportional to the cube root of the ratio of their masses.

This relationship can be expressed as:

V ∝ m^(1/3)

This relationship can also be expressed as the size of an object scales as its mass raised to the power of 1/3.

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In the experiment, we measure the total time for 20 complete revolutions and divide it by 20 to obtain the period of the rotation. why not measure the amount of time for one complete revolution directly and record it as the period of rotation?

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In the experiment, measuring the total time for 20 complete revolutions and dividing it by 20 to obtain the period of rotation is done to reduce errors and improve the accuracy of the measurement.

Measuring the time for one complete revolution directly can be subject to human reaction time and potential errors in starting and stopping the stopwatch precisely at the beginning and end of each revolution. These errors can accumulate and affect the accuracy of the measurement.

By measuring the total time for 20 complete revolutions and then dividing it by 20, we are essentially averaging out these potential errors over multiple revolutions. This helps to minimize the impact of any individual timing error and provides a more reliable and accurate measurement of the period of rotation.

Additionally, by taking multiple measurements (in this case, 20), we increase the sample size and reduce the influence of outliers or irregularities in any individual measurement. This improves the overall precision and reliability of the calculated period.

Therefore, measuring the total time for multiple revolutions and dividing by the number of revolutions allows for a more accurate determination of the period of rotation in the experiment.

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A pendulum consists of a mass m hanging at the bottom end of a massless rod of length l, which has a frictionless pivot at its top end. A mass m, moving as shown in the figure with velocity v impacts m and becomes embedded.

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The common velocity of masses m and M after the impact is v = mv / sqrt(m (m + M)). A pendulum consists of a mass m hanging at the bottom end of a massless rod of length l, which has a frictionless pivot at its top end. A mass m, moving as shown in the figure with velocity v impacts m and becomes embedded.

The given figure shows the before and after impact of two masses m and M with velocities v and 0, respectively, where mass M is hanging with the help of a rod and performing simple harmonic motion. Therefore, the given system of masses is an example of an inelastic collision. As per the principle of conservation of linear momentum in physics, the momentum of a system is conserved if the net external force acting on it is zero. As the given system of masses has no external force acting on it, its momentum is conserved.

The initial momentum of the system can be calculated as:pi = mv + 0Since mass M is at rest, its initial momentum is zero. Therefore, the total initial momentum of the system ispi = mv. The final momentum of the system can be calculated as:pf = (m + M)V. Here, V is the common velocity of masses m and M after the impact, which can be calculated using the principle of conservation of mechanical energy.

As the given system of masses is an example of an inelastic collision, some energy is lost during the impact due to deformation of the masses. Therefore, the conservation of mechanical energy can be written as:

1/2 mv² = (1/2) (m + M) V²

Solving for V, we get:V² = mv² / (m + M)V = v * sqrt(m / (m + M))

Therefore, the final momentum of the system can be calculated as:pf = (m + M) v * sqrt(m / (m + M)) = v * sqrt(m (m + M))

Therefore, applying the principle of conservation of linear momentum, we have:pi = pfmv = v * sqrt(m (m + M))v = mv / sqrt(m (m + M))

Hence, the common velocity of masses m and M after the impact is v = mv / sqrt(m (m + M)).

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Steam burns are pretty dangerous because there's often a lot of


thermal energy in the steam. When the steam hits you, it is going to


transfer some of that energy to you, cooling the steam. If a 6.4 kg cloud of


steam at 150 degrees, hits you and cools to 100 degrees, What is the loss


of heat energy? (no scientific notation)

Answers

The loss of heat energy when a 6.4 kg cloud of steam at 150 degrees Celsius hits you and cools to 100 degrees Celsius is 13,440,000 Joules.

To calculate the heat energy loss, we can use the formula:

Q = mcΔT

Where Q represents heat energy, m is the mass of the steam cloud (6.4 kg), c is the specific heat capacity of water (4,186 J/kg°C), and ΔT is the change in temperature (150°C - 100°C = 50°C).

Plugging in the values, we have:

Q = (6.4 kg) × (4,186 J/kg°C) × (50°C)

Q = 13,440,000 Joules

Therefore, the loss of heat energy when the steam cools from 150°C to 100°C is 13,440,000 Joules.

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Inertia is the natural tendency of every object to resist change to either speed or direction. Describe a way in which you observe this in your everyday life.

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Inertia refers to the natural tendency of every object to resist any change in either speed or direction. Every object tends to maintain its state of motion until an external force acts on it.

Inertia is an essential concept in physics, and it can be observed in everyday life. Here is how you can observe inertia in your everyday life:

When you are in a moving car, and the driver suddenly stops, your body tends to move forward. This is because of inertia. Your body is already in motion, and when the car stops, your body tends to keep moving in the same direction. The seatbelt helps to prevent this movement by exerting a force on your body in the opposite direction.

When you are on a merry-go-round and it starts spinning, you tend to feel a force pushing you away from the center of the ride. This is also due to inertia. Your body is already in motion, and when the ride starts spinning, your body tends to keep moving in the same direction. The force that pushes you away from the center of the ride is known as the centrifugal force.

When you are playing a game of pool, and you hit the cue ball, it tends to keep moving until it comes into contact with another ball or hits the wall of the table. This is also due to inertia. The cue ball is already in motion, and it tends to maintain its state of motion until it comes into contact with another object or hits the wall of the table.

These are just a few examples of how you can observe inertia in your everyday life.

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A projectile is launched horizontally from a height of 8. 0 m. The projectile travels 6. 5 m before hitting the ground. The velocity of the projectile the moment it was launched, rounded to the nearest hundredth, is m/s.

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The initial velocity of a projectile launched horizontally can be calculated using the equation of distance covered horizontally (x) = Initial velocity (u)  Time of flight (t). The horizontal component of the initial velocity can be determined by x = u  t, t = 1.63 s, x = 6.5 mu = x / t = 6.5 m / 1.63 su = 3.99 m/s  4.00 m/s.

The initial velocity of the projectile that was launched horizontally can be calculated using the equation below: Distance covered horizontally (x) = Initial velocity (u) × Time of flight (t) where, Time of flight (t) can be found using the formula below: t = [2 × vertical height (h)] / g where ,g is the acceleration due to gravity = 9.8 m/s².The vertical height (h) of the projectile is 8.0 m. So the time of flight of the projectile will bet = [2 × 8.0 m] / 9.8 m/s²t = 1.63 s Therefore, the horizontal component of the projectile’s initial velocity can be determined by: x = u × tt = 1.63 s, x = 6.5 mu = x / t = 6.5 m / 1.63 su = 3.99 m/s ≈ 4.00 m/s. So, the projectile was launched horizontally with a velocity of 4.00 m/s (rounded to the nearest hundredth).Content loaded: The term “content loaded” is used to indicate that the contents of a webpage or app have finished loading and are ready for viewing or use.

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A particle with a charge of 5nC has a distance of 0. 5m away from a charge of 9. 5nC. What is its electric potential energy?

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The electric potential energy of the particle with a charge of 5nC, located 0.5m away from a charge of 9.5nC, is 1.9 J.

To calculate the electric potential energy, we can use the formula:

Electric potential energy = (k * q1 * q2) / r

Where:

k is the electrostatic constant (9 x 10^9 N m^2/C^2),

q1 and q2 are the charges of the two particles (in this case, 5nC and 9.5nC, respectively),

r is the distance between the charges (0.5m).

Substituting the given values into the formula:

Electric potential energy = (9 x 10^9 N m^2/C^2) * (5 x 10^-9 C) * (9.5 x 10^-9 C) / 0.5m

Calculating the expression:

Electric potential energy ≈ 1.9 J

Therefore, the electric potential energy of the particle is approximately 1.9 Joules.

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In a game of pool, a 0. 4 kg cue ball is traveling at 0. 80 m/s when it hits a slower striped ball moving at 0. 38 m/s. After the collision, the striped ball moves off at 0. 62 m/s. What is the magnitude of the final velocity of the cue ball? Assume all pool balls have the same mass. 0. 20 m/s 0. 56 m/s 1. 0 m/s 1. 8 m/s.

Answers

When solving the problem of pool game and calculating the magnitude of the final velocity of the cue ball, the correct option is 0.56 m/s.

The following method: Use the principle of conservation of momentum, i.e. momentum before the collision is equal to the momentum after the collision, which is mathematically written as: [tex]$$mv_1+Mv_2=(m + M)v_3$$[/tex]

Where, m is the mass of the cue ball,

M is the mass of the striped ball,

v1 is the velocity of the cue ball before the collision,

v2 is the velocity of the striped ball before the collision, and

v3 is the velocity of the cue ball after the collision.

Using the above formula, we get the final velocity of the cue ball as:

[tex]$$v_3=frac {mv_1+Mv_2}{m+M}$$[/tex]

Plug in the given values, we get,

[tex]$$v_3=frac{0.4*0.80+0.4*0.38}{0.4+0.4}$$[/tex]

Solving for v3, we get [tex]$v_3=0.59$[/tex] m/s Therefore, the magnitude of the final velocity of the cue ball is 0.59 m/s.

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A 0. 10-kg ball traveling at 10 m/s hits a stationary wall and rebounds back with a velocity of 10 m/s. What is the impulse imparted by the wall?

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The impulse imparted by the wall is -2 kg·m/s. The negative sign indicates a change in direction due to the rebound of the ball.

To determine the impulse imparted by the wall, we can use the principle of conservation of momentum. The impulse is equal to the change in momentum experienced by the ball.

The momentum of an object is given by the product of its mass and velocity:

Momentum = mass × velocity

Given:

Mass of the ball (m) = 0.10 kg

Initial velocity of the ball (v₁) = 10 m/s

Final velocity of the ball (v₂) = -10 m/s (negative sign indicates a change in direction)

The initial momentum of the ball is:

Initial momentum = m × v₁ = 0.10 kg × 10 m/s = 1 kg·m/s

The final momentum of the ball is:

Final momentum = m × v₂ = 0.10 kg × (-10 m/s) = -1 kg·m/s

The change in momentum is the difference between the final and initial momentum:

Change in momentum = Final momentum - Initial momentum = (-1 kg·m/s) - (1 kg·m/s) = -2 kg·m/s

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