A small steel roulette ball rolls around the inside of a 30 cm diameter roulette wheel. It is spun at 150 rpm, but is slows to 60 rpm over an interval of 5.0 s. How many revolutions does the ball make during these 5.0 s?

Answer:

Please find the answer in the explanation.

Explanation:

How should the student change the circuit to give negative values for current and potential difference?

Positive and Negative current can be seen when charging and discharging a device or when powering a load.

Negative current can also be achieved when current is allowed to flow in other direction.

If the direction of the current is changed, the voltage will read negative. Changing of power or battery terminals can make voltmetre to read negative.

The student can reverse the direction of current flow in a circuit to obtain the negative values for current and potential difference in the circuit.

To determine the negative current flow and potential difference in a circuit, we can consider following ways;

Thus, the negative values of current and potential difference is obtained by reversing the direction of current flow in a circuit.

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Answer:

YES THEY CAN

Explanation:

SOUTH POLE IS CLOSER TO NORTH POLE,kinda

Answer:

in a generator mechanical energy is a device that converts a form of energy into electricty

The energy conversion provided by the generators is: mechanical to electrical energy. Hence, option (A) is correct.

An electric generator is a device that generates electric energy, which can either be immediately delivered to houses, businesses, and other structures or stored in batteries. Electromagnetic induction is the basis for how electric generators operate.

A horseshoe-shaped magnet's poles are quickly rotated around a conductor coil, which is a copper coil that has been tightly wound onto a metal core. An armature is made up of a conductor coil and a core. The armature is rotated by a mechanical energy source, such as a motor, by means of a shaft connection.

The magnetic field that exists between the magnet's two poles is broken off when the coil turns. The conductor's electrons will interact with the magnetic field, causing an electric current to flow through it.

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Answer:

An  asteroid moving at a constant speed through space.

Explanation:

An example of a balanced force is; an asteroid moving at a constant speed through space.

A balanced force is a force that does not produce acceleration or cause motion of a stationary body. According to Newtons first law, a body continues in its state of rest or uniform motion unless it is acted upon by an unbalanced force.

The asteroid is moving at constant velocity because all the forces that act on it are balanced. Once it is acted upon by unbalanced forces, it will accelerate in obedience to Newton's first law.

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Answer: a transverse wave

Explanation:

Answer:

a transverse wave

Explanation:

I think

Answer:

3,000 m/s

Explanation:

3,000 m/s

Answer:

0.015kgcm^3

Explanation:

density = mass / volume

density = (30/1000) / 2

= 0.015kgcm^3

Answer:

Yes labor is required therefor jobs like cashier, and other low skill labor jobs I'll not be required

Explanation:

Answer:

We can define power as:

P = W/t

where W is work, and t is time.

And the work needed to climb a distance (we can assume that climb a set of stairs is equivalent to climbing a given height) is:

W = g*h*m

Where:

g = gravitational acceleration

h = height climbed

m = mass.

g and h are the same for Juan and his sister, and the only thing that changes is the mass

The work for Juan is:

Wj = g*h*M

And for his sister, that has half his

Wa = g*h*M/2.

Then the power for Juan, is:

Pj = Wj/t1 = (g*h*M)/t1

Where t1 is the time that Juan needs to climb the stairs.

And for Anna is:

Pa = Wa/t2 = (g*h*M/2)/t2

Where t2 is the time that Anna needs to climb the stairs:

We know that they have the same power, then:

Pj = Pa

(g*h*M)/t1 = (g*h*M/2)/t2

M/t1 = M/2*t2

t1 = 2*t2

This means that the time in which Juan climbs the stairs is twice the time that Anna needs to climb the stairs.

Answer:

104.3 cm  or 179.7

Explanation:

First find time that it takes for the object to hit the ground

[tex]\sqrt{(2H)/g} -> \sqrt{(2 x 179)/ 9.8} = 6.04s\\[/tex]*

Then find xf of projectile [tex]xf= 5.9(6.04) = 37.7\\\\[/tex]

not 100% sure if the projectile is going away from the object or towards it but you either do 142- 37.7   or    142+37.7  

hope that helps

"217 cm" would be the difference throughout the landing locations of the two objects.

Given:

Initial horizontal speed,

Height,

By applying equation of motion, we get

→               [tex]S = ut+\frac{1}{2}at^2[/tex]

By substituting the values, we get

→ [tex]179\times 10^{-2}=0+\frac{1}{2}\times 9.8\times t^2[/tex]

→            [tex]3.58= 9.8t^2[/tex]

                 [tex]t^2 =\frac{3.58}{9.8}[/tex]

                  [tex]t = \sqrt{0.36531}[/tex]

                     [tex]= 0.61 \ s[/tex]

now,

The horizontal distance travelled by the first particle will be:

→ [tex]d = v\times t[/tex]

     [tex]= 5.9\times 0.61[/tex]

     [tex]= 3.59 \ m[/tex]

or,

     [tex]= 359 \ cm[/tex]

hence,

The distance between particle will be:

= [tex]d -142[/tex]

= [tex]359-142[/tex]

= [tex]217 \ cm[/tex]

Thus the above approach is right.

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Answer:

75Watts

Explanation:

Given parameters:

Time  = 12s

Force applied  = 20N

Height  = 45m

Unknown:

Power output  = ?

Solution:

Power is defined as the rate at which work is done.

 It is mathematically expressed as;

        Power  = [tex]\frac{work done}{time}[/tex]

Work done  = force x distance  = 20 x 45  = 900J

        Power  = [tex]\frac{900}{12}[/tex]   = 75Watts

Answer:

A sea breeze describes a wind that blows from the ocean inland towards land. ... However, water heats up much more slowly than land and so the air above the land will be warmer compared to the air over the ocean. The warm air over the land will rise throughout the day, causing low pressure at the surface.

Explanation:

This should be right!

Answer:

High pressure.

Explanation:

The symbol H indicates high pressure, while the symbol L indicates low pressure. Therefore, option C is correct.

A weather map is a map of the world or a portion of it that uses symbols to depict the weather conditions at a given time, including temperature, pressure, wind speed and direction, humidity, clouds, visibility, and type and amount of precipitation.

Different kinds of weather maps are used by meteorologists to display forecasts. Satellite, Doppler radar, precipitation, temperature, and wind speed are the primary weather maps. Let's investigate each of these in greater depth. There are four types of weather maps and that is station model map, aviation map, temperature map, and streamline map.

The symbol H indicates high pressure. Therefore, option C is correct.

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Answer:

105 meters.

Explanation:

If the airplane moves with the speed of 3.20 m/s for 32.8 seconds on the ground before takeoff, it covers 105 meters distance on the ground. We can calculate the distance by using the formula of speed which is speed is equal to distance divided by total time taken. We have to remove time present below the distance so for that we have to cross multiply and we get distance equal to speed x time. So by putting the values of speed and time we get our answer.

Answer:

y has to be a liquid and x would be a gas

Explanation:

the closer two molecules are, greater is the force of attraction which makes them stick together and give it a structure

here y has lesser intermolecular distance so it is a liquid

particles will collide in gas though as

liquid particles have constant motion

Answer:

Yes

Explanation:

Just as motion in two dimensions introduced vectors, forces in two dimensions also involve more involved issues. 

Answer:

4. The Earth's umbra only covers a part of the Moon causing a circular shadow to pass across it.

Explanation:

i took the quiz

Answer:

B my brother say that it was

Answer:

D

Explanation:

6/35=0.17

Answer:

because of where we are and our distance away from them, in reality they're giant balls of burning gas, like the sun. some stars are even bigger than the sun

Explanation:

Answer:

v' = 2.4 m/s

Explanation:

Given that,

Mass of one skater, m = 60 kg

Mass of the other's skater, m' = 60 kg

The two skaters push off each other. After the push, the smaller  skater has a velocity of 3.0 m/s.

When there is no external force acting on a system, the momentum remains conserved. It means initial momentum is equal to the final momentum. Let v' is the velocity of the larger skater.

mv = m'v'

[tex]v'=\dfrac{mv}{m'}\\\\v'=\dfrac{60\times 3}{75}\\\\v'=2.4\ m/s[/tex]

So, the velocity of the larger skater is 2.4 m/s.

Answer:

do explain what u need help with?

Answer:

m = 100[gram]

Explanation:

In order to solve this problem, we must remember the definition of the density of matter, which is the relationship between mass and volume. The density can be calculated by means of the following formula.

[tex]Ro=m/V[/tex]

where:

Ro = density = 1 [gramm/cm³]

m = mass [gramm]

V = volume = 100 [cm³]

Now replacing:

[tex]m=Ro*V\\m=(1\frac{grm}{cm^{3} } )*100cm^{3} \\m=100[gram][/tex]

Answer:

The correct option is;

Kinetic energy is least as you are moving from he highest point of the swing moving down to the lowest point of the swing

Explanation:

The formula for the kinetic energy, KE, is given by the following formula;

KE = 1/2 × m × v²

Where;

m = The mass of the body in the study

v = The velocity of motion of the body

Therefore, the kinetic energy increases with velocity and therefore, is lowest at the top of the swing when the object is still for a moment

The total mechanical energy of the body is given by the following equation;

Total mechanical energy, [tex]E_T[/tex] = PE + KE = Constant

Where;

PE = The potential energy of the body = Mass × Acceleration due to gravity × Height

Therefore, the potential energy is highest at the top of the motion and lowest at the lowest point, which gives;

The kinetic energy is lowest at the top of the motion and highest at the lowest point of the motion.