Mass/energy equivalence is expressed mathematically in which of the following expressions?

Answers

Answer 1

Check each option to see how it relates to different concepts.

Option 1: E=hf

This equation tells the energy carried by an electromagnetic wave with frequency f.

Option 2: E=mc

This equation is not correct, since the left member is measured in units of energy and the right member does not.

Option 3: E=(1/2)mv^2

This equation relates the energy of a moving object with its mass and its velocity. It is known as kinetic energy.

Option 4: E=mc^2

Since c is a constant (the speed of light), this equation relates the energy of an object with its mass.

Therefore, the mass/energy equivalence is expressed mathematically in the equation:

[tex]E=mc^2[/tex]


Related Questions

When considering the Law of Universal Gravitation, the graph of force v. distance is _____.1)linear2)parabolic3)circular4)none of the above

Answers

According to Law of Universal Gravitation, the graph between Force and distance is hyperbolic as the force depends sqaure of the distance. Therefore, the correct option is (4).

A 590 kg elevator accelerates upward at 1.1 m/s2 for the first 15 m of its motion. How much work is done during this part of its motion by the cable that lifts the elevator? Neglect any friction.

Answers

The work done by the elevator is  - 86.730kj

It should be converted to energy in order to move an object. Energy can be transferred by the use of force. Work done refers to the amount of energy used by a force to move an object.

We are given that ,

The mass of the elevator = m = 590 kg

The acceleration of the elevator upward = 1.1m/s²

The height of the elevator = d = 15m

Therefore, T is the tension of the cable pulling the elevator upwards then the formulation of the work done of the elevator may be given as,

Work done = Force × distance

W = F × d

i.e. F = - mg

Above negative force due to gravity is acting opposite direction to the motion having an upward acceleration.

Thus , from above two equations we can write as,

W = - (mg)(d)

W = -(590kg)(9.8m/s²)(15m)

W = - 86730j

W = - 86.730kj

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A 12 ohm hair dryer is plugged into a 240 V power supply. What is the current?

Answers

Given,

The resistance of the hairdryer, R=12 Ω

The voltage of the power supply, V=240 V

From Ohm's law,

[tex]V=IR[/tex]

Where I is the current.

On substituting the known values,

[tex]\begin{gathered} 240=I\times12 \\ \Rightarrow I=\frac{240}{12} \\ =20\text{ A} \end{gathered}[/tex]

Thus the current is 20 A.

A car travels at an average speed of 60 km/h for 15 minutes.How far does the car travel in 15 minutes?D900 kmC 240 kmA4.0 km B 15 km

Answers

Notice that the speed is written using units of km/h and the time is written using units of minutes.

Convert the time interval to hours. Remember that 1 hour equals 60 minutes:

[tex]15\min =15\min \times\frac{1h}{60\min }=0.25h[/tex]

The distance d that a particle travels during a time t if it moves at an average speed v is given by the formula:

[tex]d=v\cdot t[/tex]

Replace v=60km/h and t=0.25h to find the distance traveled by the car:

[tex]d=(60\frac{km}{h})\times(0.25h)=15km[/tex]

Therefore, the car travels 15km in 15 minutes.

How much kinetic energy does Usain Bolt (m=94kg) have when he hits his top
speed of 12 m/s?

Answers

Answer:

6768 Joules (J)

Explanation:

kinetic energy = 1/2mv^2

1/2 (94x12^2) = 6768

Yea thanks thank you for the info thanks

Answers

To help us solve this problem let's plot the points given in the table:

From the graph we notice that this the position can be modeled by a sine function, we also notice that the period of this function is 8. We know that a sine function can be modeled by:

[tex]A\sin(B(x+C))+D[/tex]

where A is the amplitude, C is the horizontal shift, D is the vertical shift and

[tex]\frac{2\pi}{B}[/tex]

is the period.

From the graph we have we notice that we don't have any horizontal or vertical shift, then C=0 and D=0. We also notice that the amplitude is 15, then A=15. Finally, as we said, the period is 8, then:

[tex]\begin{gathered} 8=\frac{2\pi}{B} \\ B=\frac{2\pi}{8} \\ B=\frac{\pi}{4} \end{gathered}[/tex]

Plugging these values in the sine function we have:

[tex]x(t)=15\sin(\frac{\pi}{4}t)[/tex]

If we graph this function along the points on the table we get the following graph:

We notice that we don't get an exact fit but we get a close one.

Now, that we have a function that describes the position we can find the velocity by taking the derivative:

[tex]\begin{gathered} x^{\prime}(t)=\frac{d}{dt}\lbrack15\sin(\frac{\pi}{4}t)\rbrack \\ =\frac{15\pi}{4}\cos(\frac{\pi}{4}t) \end{gathered}[/tex]

Therefore, the velocity is:

[tex]x^{\prime}(t)=\frac{15\pi}{4}\cos(\frac{\pi}{4}t)[/tex]

Once we have the expression for the velocity we can find values for the times we need, they are shown in the table below:

From the table we have that:

[tex]x^{\prime}(0.5)=10.884199\text{ cm/s}[/tex]

And that:

• The earliest time when the velocity is zero is 2 s.

,

• The second time when the velocity is zero is 6 s.

,

• The minimum velocity happens at 4 s.

,

• The minimum velocity is -11.780972 cm/s

Calculate the potential energy of a 2 kg ball that is about to be dropped of a height of 25 m

Answers

Given:

The mass of the ball, m=2 kg

The height from which the ball is about to be dropped, h=25 m

To find:

The potential energy of the ball.

Explanation:

The type of potential energy that is stored in this ball is called gravitational potential energy. The gravitational potential energy is the energy that an object possesses due to its height. The gravitational potential energy is directly proportional to the height at which the object is situated.

The potential energy of the ball is given by,

[tex]E=\text{mgh}[/tex]

Where g is the acceleration due to gravity.

On substituting the known values,

[tex]\begin{gathered} E=2\times9.8\times25 \\ =490\text{ J} \end{gathered}[/tex]

Final answer:

The potential energy of the ball is 490 J

Directions: Solve the following problems. Show your solutions.2. A circuit has three resistors connected in parallel. Their resistances are 11 Ω, 17 Ω, and 12 Ω as shown on the figure below. Find for: a. Voltage in R1 (V1)b. Voltage in R2 (V2)c. Voltage in R3 (V3)d. Total Resistance (RT)e. Total Current (IT)f. Current in R1 (I1)g. Current in R2 (I2)h. Current in R3 (I3)

Answers

Since the resistances are in parallel, the voltage in each one is the same, so:

a. V1 = 60 V

b. V2 = 60 V

c. V3 = 60 V

d.

The total resistance of parallel resistances can be calculated with the formula below:

[tex]\begin{gathered} \frac{1}{RT}=\frac{1}{R1}+\frac{1}{R2}+\frac{1}{R3}\\ \\ RT=\frac{R1\cdot R2\cdot R3}{R1R2+R2R3+R1R3}\\ \\ RT=\frac{11\cdot17\cdot12}{11\cdot17+17\operatorname{\cdot}12+11\operatorname{\cdot}12}\\ \\ RT=\frac{2244}{523}\\ \\ RT=4.29\text{ ohms} \end{gathered}[/tex]

e.

The total current is given by the voltage divided by the total resistance:

[tex]IT=\frac{V}{RT}=\frac{60}{4.29}=13.99\text{ A}[/tex]

The current in each resistor is given by the voltage divided by the resistance:

f.

[tex]I1=\frac{V1}{R1}=\frac{60}{11}=5.45\text{ A}[/tex]

g.

[tex]I2=\frac{V2}{R2}=\frac{60}{17}=3.53\text{ A}[/tex]

h.

[tex]I3=\frac{V3}{R3}=\frac{60}{12}=5\text{ A}[/tex]

Scientists might make a computer model of volcanic eruptions. What is the
biggest benefit of this model?

Answers

Answer:

Computer Model May Help to More Accurately Predict Volcano Eruptions. Scientists at the GFZ German Research Center in Potsdam, Germany, have developed a computer model which they say boosts the accuracy of volcanic eruption prediction.

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Sound is an example of a longitudinal wave because the wave travels by compressions and rarefactions of air particles?True or false

Answers

To find

The given statement is true or false.

Explanation

The sound waves propag5ate th6roug5h6 a medium by the compression and rarefraction of the m

For each, find the radius, diameter, and circumference of the circular object (one of these measurements is given in the problem). When working with the circumference, use π and round to the nearest whole number. a. Breaking a cookie in half creates a straight side 10 cm long.radius: cmdiameter: cmcircumference: cm

Answers

ANSWER

• radius: ,5 cm

,

• diameter: ,10 cm

,

• circumference: ,31 cm

EXPLANATION

If we assume that the cookie is round, when we cut it in half we'll have the following shape:

The straight side is the diameter of the cookie, which is 10 cm long.

The radius of a circle is half the diameter, hence the radius of the cookie is 5 cm.

The circumference is,

[tex]C=\pi\cdot d[/tex]

Where d is the diameter of the circle. In this case, this is 10cm,

[tex]C=\pi\cdot10\operatorname{cm}\approx31\operatorname{cm}[/tex]

The circumference of the cookie is 31 cm, rounded to the nearest whole number.

how far will you go (km) in 3 min traveling 60 km/hr?

Answers

We will have the following:

First, we transform minutes to hours, that is:

[tex]3\min \cdot\frac{1h}{60\min }=0.05h[/tex]

Now, we determine the distance traveled:

[tex]d=(60km/h)(0.05h)\Rightarrow d=3km[/tex]

So, you will go 3km.

A +10.31 nC charge is located at (0,8.47) cm and a -2.09 nC charge is located (3.91, 0) cm. Where would a -14.84 nC charge need to be located in order that the electric field at the origin be zero? Express your answer, in cm, as the magnitude of the distance of q3 from the origin.

Answers

To make the E-field at the origin become 0, we need to find the E-field at the origin before

E = kq/r^2

E1 = 12934 V/m

E2 = 12303.69 V/m

Etotal = 17851.34 V/m

17851.34 = kq/r^2

r = 8.6526 cm

The fact that light can be polarized and sound cannot be polarized can be best explained by which?a) Light is a transverse wave and sound is not.b) Light travels much faster than sound.c) Light is a longitudinal wave, and sound is not.d) Light travels much slower than sound.

Answers

a) Light is a transverse wave and sound is not.

Explanation:

Light waves are transverse waves, their direction of propagation is perpendicular to the direction of vibration. Transverse waves can be polarized.

In

I need help with the following question:

USING THE FOLLOWING CONVERSION FACTOR:

Conversions Longitude:
1 degree= 52.505 miles
1 minute= 4620.5 feet

Conversions for Latitude:
1 degree= 69.005 miles
1 minute= 6072.5 feet



How Do I convert these coordinates into feet?



The length of side A (40° 51.485' N, 74° 12.080' W & 40° 51.485' N, 74° 11.883' W) = ------------- ft

The length of side B (40° 51.485' N, 74° 12.080' W & 40° 51.800' N, 74° 11.883' W) = ----------- ft

Answers

The length of the side A is 1,13,25,866.44 ft N, 2,70,34,989.4 ft W

The length of the side B is 1,13,25,866.44 ft N, 2,70,34,989.4 ft W

Length is the measurement of anything from end to end.

Conversions Longitude:

Longitude is the angular distance of a location east or west of the meridian in Greenwich, England, or west of the standard meridian of a celestial object.

1 degree= 52.505 miles

1 minute= 4620.5 feet

Conversions for Latitude:

Latitude is the angular distance of a location north or south of the Earth's equator.

1 degree= 69.005 miles

1 minute= 6072.5 feet

Also 1 mile = 5280 feet

The length of side A (40° 51.485' N, 74° 12.080' W)

40° 51.485' N = 40 * 52.505 * 5280 + 51.485 * 4620.5

40° 51.485' N = 1,10,88,000 + 2,37,866.44

40° 51.485' N = 1,13,25,866.44 feet.

74° 12.080' W = 74 * 69.005 * 5280 + 12.080 * 6072.5

74° 12.080' W = 2,69,61,633.6 + 73,355.8

74° 12.080' W = 2,70,34,989.4 feet

The length of side B (40° 51.485' N, 74° 12.080' W)

40° 51.485' N = 1,13,25,866.44 feet.

74° 12.080' W = 2,70,34,989.4 feet.

Side A = Side B =  1,13,25,866.44 ft N, 2,70,34,989.4 ft W.

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if i kicked a empty soda can would it travel further than a filled up soda can, if so why? & what newton law would this be ?

Answers

If we kick both sodas with the same force, the soda that has a higher weight will have a lower acceleration. This is explained by Newton's second law of motion

The second law states that the acceleration of an object is dependent upon two variables - the net force acting upon the object and the mass of the object.

F = ma

where

m = mass

a = accelaration

F = Force

Use the momentum equation for photons found in this week's notes, the wavelength you found in #3, and Planck’s constant (6.63E-34) to calculate the momentum of this photon:

Answers

The wavelength is divided by Plank's constant to get the momentum equation for photons: p = h /λ.

What is photon?

The electromagnetic force is carried by a photon, a basic particle that is a quantum of the electromagnetic field and includes electromagnetic radiation like light and radio waves. Since photons have no mass, they constantly move at the 299792458 m/s speed of light in a vacuum.

Assuming the wavelength determined in a prior issue, = 656 nm = 656 * 10 - 9 m, you get:

p = (6.63 * 10 ^-34) / (656 * 10 ^ -9) kg * m/s

P, which must be rounded to three significant numbers, is equal to 1.01067 * 10 - 27 kg*m/s.

Consequently, p = 1.01 * 10 -27 kg*m/s

Our number, rounded to two significant figures, is 1.0 * 10 - 27 kg*m/s because the answers are only rounded to two significant values.

Therefore, given that the wavelength is 656 nm, the first option—1.0*10-27 kg*m/s—is the correct response.

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carts, bricks, and bands

2. Which of the following conclusions are specifically supported by the data in Table 1?
a. A constant mass causes the acceleration value to increase.
b. An increase in the number of bricks causes the acceleration to decrease.
c. An increase in the length of the rubber band causes the acceleration to increase.
d. An increase in the number of rubber bands causes an increase in the acceleration.

Answers

The conclusions that are specifically supported by the data in Table 1 is that An increase in the number of rubber bands causes an increase in the acceleration. That is option D.

What is acceleration?

Acceleration is defined as the rate at which the velocity of a moving object changes with respect to time which is measured in meter per second per second (m/s²).

From the table given,

Trial 1 ----> 1 band = 0.24m/s²

Trial 2 ----> 2 bands = 0.51 m/s²

Trial 3 ----> 3 bands = 0.73 m/s²

Trial 4 -----> 4 bands = 1.00 m/s²

This clearly shows that increase in the number of bands increases the acceleration of one brick that was placed on the cart.

This is because increasing the number of rubber bands has the effect of doubling the force leading to an effective increase in velocity of the moving cart.

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Problem 42 (p.228) Different radioisotopes have different half-lives. For example, the half-life of carbon-14 is 5700 years, the half-life of uranium-235 is 704 million years , the half-life of potassium-40 is 1.3 billion years, and the half-life of rubidium-87 is 49 billion years.

Why would an isotope with a half life like that of carbon-14 be a poor choice to get the age of the Solar System?

b) The age of the universe is approximately 14 billion years. Does that mean that no
rubidium-87 has decayed yet?

Answers

a) The choice of carbon - 14 is not pat because it has a very small half life and would vanish quickly

b) The rubidium-87 is yet to decay since it is older than the universe.

What is the solar system?

The solar system comprises of the sun and all the planets that move round the sun. Recall that the sun lies at the center of the solar system. This implies that we have the planets as they move round the sun in concentric circles.

Now we can see that the half lives of all the isotopes that were listed in the question are;

carbon-14 - 5700 yearsuranium-235 - 704 million yearspotassium-40 - 1.3 billion yearsrubidium-87 -  49 billion years

Given that the estimated age  of the sun is 4.603 billion years, it is clear that the  carbon-14 would be a poor choice for the dating of the sun since it has a half life of only a few thousand years.

b) Given the fact that the half life of the rubidium-87 isotope is  49 billion years, it follows that none of it has decayed as yet.

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A boy walks 30m [E25°S] then 60m [E40°N]. Determine his net displacement.

Answers

Given,

The distances; a=30 m

b=60 m

Angles; θ=E25°S

α=E40°N

From the diagram, ∠A is given by,

[tex]\angle A=180\degree-\theta-\alpha[/tex]

On substituting the known values,

[tex]\begin{gathered} \angle A=180\degree-25\degree-40\degree \\ =115\degree^{} \end{gathered}[/tex]

From the cos rule,

[tex]d^2=a^2+b^2-2ab\cos A[/tex]

On substituting the known values,

[tex]\begin{gathered} d^2=30^2+60^2-2\times30\times60\times\cos 115\degree \\ \Rightarrow d=\sqrt[]{30^2+60^2-2\times30\times60\times\cos 115\degree} \\ =77.6\text{ m} \end{gathered}[/tex]

Thus the total displacement of the boy is 77.6 m

A 3000-kg satellite orbits the Earth in a circular orbit 11797 km above the Earth's surface (Earth radius = 6380 km, Earth Mass = 5.97x10^24 kg). Reminders:Distance should be in meters, not kilometers. 1000 m = 1 km.The total radius needed for the problem is r=r earth + hightWhat is the gravitational force (in newtons, N) between the satellite and the Earth?Hint: The radius of the Earth + the height of the orbit = the center-to-center distance needed for the equation. You also need the universal gravitational constant (G), which is not 9.81 m/s^2. Be careful.Fg=Gm1m2/r2Answer: __________ N

Answers

We have:

m1 = mass 1 = 3000 kg

h = height = 11797 km = 11797000 m

r2 = 6380 km = 6380000

m2 = mass 2 = 5.97x10^24 kg

G = gravitational constant = 6.6743 × 10-11 Nm^2 /kg^2

r= distance = h + r2 = 11797000 m + 6390000 m = 18,177,000 m

Apply:

Fg = G m1m2/ r^2

Replacing:

Fg = 6.6743 × 10-11 Nm^2/kg^2 ( 3000 kg * 5.97x10^24 kg ) / (18,177,000 m)^2

Fg= 3,617.9 N

a) your one friend and their bumper boat (m = 210 kg) are traveling to the left at 3.5 m/s and your other friend and their bumper boat (m = 221 kg) are traveling in the opposite direction at 1.8 m/s. The two boats then collide in a perfectly elastic one-dimensional collision. How fast is your first friend and their boat moving after the collision?b) after the collision, a constant drag force between the water and the boat causes your first friends boat to come to a stop. If the boat travels 2.7 m before stopping, what is the magnitude of the constant drag force?

Answers

ANSWER:

a) 1.757 m/s

b) 119.91 N

STEP-BY-STEP EXPLANATION:

Given:

Mass 1 (m1) = 210 kg

Initial speed 1 (u1) = 3.5 m/s

Mass 2 (m2) = 221 kg

Initial speed (u2) = 1.8 m/s

We make a sketch of the situation:

a)

We make a momentum balance by taking into account the conservation of momentum:

[tex]\begin{gathered} m_1u_1-m_2u_2=m_1v_1+m_2v_2 \\ \\ v_2=\frac{m_1u_1-m_2u_2-m_1v_1}{m_2}\rightarrow(1) \end{gathered}[/tex]

Now an energy balance taking into account the conservation of energy, as follows:

[tex]\begin{gathered} \frac{1}{2}m_1(u_1)^2+\frac{1}{2}m_2(u_2)^2=\frac{1}{2}m_1(v_1)^2+\frac{1}{2}m_2(v_2)^2 \\ \\ m_1\left(u_1\right)^2+m_2\left(u_2\right)^2=m_1\left(v_1\right)^2+m_2\lparen v_2)^2\rightarrow(2) \end{gathered}[/tex]

Now, we substitute equation (1) in (2) and we get the following:

[tex]\begin{gathered} m_1\left(u_1\right)^2+m_2\left(u_2\right)^2=m_1\left(v_1\right)^2+m_2\left(\frac{m_1u_1-m_2u_2-m_1v_1}{m_2}\right)^2 \\ \\ m_1\left(u_1\right)^2+m_2\left(u_2\right)^2=m_1\left(v_1\right)^2+m_2\left(\frac{\left(m_1u_1\right)^2-2\left(m_1u_1\right)\left(m_2u_2\right)-2\left(m_1u_1\right)\left(m_1v_1\right)+\left(m_2u_2\right)^2+2\left(m_2u_2\right)\left(m_1v_1\right)+\left(m_1v_1\right)^2}{(m_2)^2}\right) \\ \\ m_1\left(u_1\right)^2+m_2\left(u_2\right)^2=m_1\left(v_1\right)^2+\left(\frac{\left(m_1u_1\right)^2-2\left(m_1u_1\right)\left(m_2u_2\right)-2\left(m_1u_1\right)\left(m_1v_1\right)+\left(m_2u_2\right)^2+2\left(m_2u_2\right)\left(m_1v_1\right)+\left(m_1v_1\right)^2}{m_2}\right) \\ \\ v_1=u_1\frac{m_1-m_2}{m_1+m_2}+u_2\frac{2m_2}{m_1+m_2} \\ \\ \text{ Now, we substitute each value, like so:} \\ \\ v_1=3.5\cdot\frac{210-221}{210+221}+1.8\cdot\frac{2\cdot221}{210+221} \\ \\ v_1=1.757\text{ m/s} \end{gathered}[/tex]

b)

We use the following formula to determine the force:

[tex]\begin{gathered} v^2=u^2+2as \\ \\ \text{ Wee replacing:} \\ \\ (1.756)^2=0^2+2\cdot a\cdot2.7 \\ \\ a=0.003375\text{ m/s}^2 \\ \\ \text{ Therfore:} \\ \\ F=m\cdot a=210\cdot0.571=119.91\text{ N} \end{gathered}[/tex]

The distance and direction in which an object travels per unit of time. A. velocity B. magnitude C. speed

Answers

Answer:

Answer is C. Speed

what is the smallest amount of time in which the person can accelerate the car from rest to 23 m/s and still keep the coffee cup on the roof. The coefficient of the static friction is 0.21. The maximum acceleration of the car that is allowed so that the cup does not fall is 2.1 m/s^2

Answers

Given:

The coefficient of the static friction, μ=0.21

The maximum acceleration of the car so that the cup does not fall, a=2.1 m/s²

The initial velocity of the car, u=0 m/s

The final velocity of the car, v=23 m/s

To find:

The smallest amount of the time in which the car can accelerate so that the coffee cup will still be on the roof.

Explanation:

From the equation of motion,

[tex]v=u+at[/tex]

Where t is the smallest amount of time in which the person can accelerate and still keep the cup on the car.

On rearranging the above equation,

[tex]t=\frac{v-u}{a}[/tex]

On substituting the known values,

[tex]\begin{gathered} t=\frac{23-0}{2.1} \\ =10.95\text{ s} \end{gathered}[/tex]

Final answer:

Thus the smallest amount of the time in which the person can accelerate the car at the given rate and still keep the cup on the roof of the car is 10.95 s

A __________ is described as a device with specific resistance and is used to control current.batteryresistorparallel connectionseries connection

Answers

ANSWER:

resistor

STEP-BY-STEP EXPLANATION:

A device that has a specific resistance and is also used to control current is the resistor.

Therefore:

A resistor is described as a device with specific resistance and is used to control current.

A cheetah is running at a velocity of 8 m/s when it accelerptes at 1.5 m/s^2 for 6 seconds. If the
cheetah started at a position of 20m what is the final Position of the cheetah?

Answers

Answer:

[tex]95[/tex]

Explanation:

[tex]x= x. + vt+\frac{1}{2} at^{2}[/tex]

[tex]s=20 + (8*6)+ \frac{1}{2} (1.5 * 6^{2} )[/tex]

[tex]s= 95[/tex]

A car starts from rest and travels for 9.0 s with a uniform acceleration of +2.4 m/s²?. The driver then applies the brakes, causing a uniform acceleration of -2.5 m/s². If the brakes areapplied for 2.0 s, determine each of the following(a) How fast is the car going at the end of the braking period?m/s(b) How far has the car gone?m

Answers

Answer:

a) At the end of the braking period, the car is moving at a speed of 16.6m/s

b) The car has traveled a total distance of 135.4m

Explanations:

The car starts from rest

The initial velocity, u = 0 m/s

Uniform acceleration, a = 2.4 m/s²

time, t = 9.0 seconds

Find the final velocity when the car accelerates at 2.4m/s² using the equation

v = u + at

v = 0 + 2.4(9)

v = 21.6 m/s

The distance covered when the car accelerates at 2.4m/s²

s = ut + 0.5at²

s = 0(9) + 0.5(2.4)(9²)

s = 97.2 m

The distance covered when the car accelerates at 2.4m/s² is 97.2 m

The driver then applied a brake for 2.0 s and accelerates at -2.5m/s²

The initial velocity now becomes 21.6 m/s

That is, u = 21.6 m/s

t = 2 seconds

a = -2.5m/s²

The final speed v is calculated as:

v = u + at

v = 21.6 + (-2.5)(2)

v = 21.6 - 5

v = 16.6m/s

At the end of the braking period, the car is moving at a speed of 16.6m/s

The distance covered during the braking period is calculated as:

[tex]\begin{gathered} s\text{ = (}\frac{u+v}{2})t \\ s\text{ = }\frac{21.6+16.6}{2}\times2 \\ s\text{ = }\frac{38.2}{2}\times2 \\ s\text{ = 38.2 m} \end{gathered}[/tex]

The car traveled a distance of 38.2 m during the braking period

Total distance covered = 97.2m + 38.2m

Total distance covered = 135.4m

The car has gone a distance of 135.4m

Suppose that the Towngas supply pressure is 8.5 kPa (gauge pressure) andthe total volume is 2.4 m? enters a building from outside where thetemperature is 10 °C and passes into a building where the temperature is 35°C, if the pressure was reduced to 2 kPa. What would be the new volume ofthe gas?

Answers

Given,

The initial pressure of the gas, P₁=8.5 kPa

The initial volume of the gas, V₁=2.4 m³

The initial temperature of the gas, T₁=10 °C=282.15 K

The temperature of the building, i.e., the temperature of the gas after entering the building, T₂=35 °C=308.15 K

The pressure of the gas after entering the building, P₂=2 kPa

Let us assume the new volume of the gas is V₂

From the combined gas law,

[tex]\begin{gathered} \frac{P_1V_1}{T_1}=\frac{P_2V_2}{T_2} \\ \Rightarrow V_2=\frac{P_1V_1T_2}{T_1P_2} \end{gathered}[/tex]

On substituting the known values,

[tex]undefined[/tex]

sin ([3pi over 2] + x) + sin ([3pi over 2] + x) = -2must show work also

Answers

ANSWER:

[tex]x=0\text{\degree}+360\text{\degree{}n}[/tex]

STEP-BY-STEP EXPLANATION:

We have the following equation:

[tex]sin\: \mleft(\mleft[\frac{3\pi}{2}\mright]+x\mright)\: +\: sin\: \mleft(\mleft[\frac{3\pi\:}{2}\mright]+x\mright)\: =\: -2[/tex]

Solving for x:

[tex]\begin{gathered} 2\cdot sin\: (\lbrack\frac{3\pi}{2}\rbrack\: +\: x)\: \: =\: -2 \\ sin\: (\lbrack\frac{3\pi}{2}\rbrack\: +\: x)=-\frac{2}{2} \\ sin\: (\lbrack\frac{3\pi}{2}\rbrack\: +\: x)=-1 \\ \frac{3\pi}{2}+\: x=\arcsin (-1) \\ \frac{3\pi}{2}+\: x=\frac{3\pi}{2}+\: 2\pi n \\ x=2\pi n \\ x=0\text{\degree}+360\text{\degree{}n} \\ \text{for n = 0} \\ \end{gathered}[/tex]

Which of the following is an appropriate measure of electric power on a toaster label?220 W55 Ω110 V2.0 A

Answers

A Watt is the unit of electrical power

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