Explanation:
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Answer:
We have,
current, I = 3 A potential difference,V = 12 V resistance,R = ?then,
Resistance,R = Potential difference,V/ Current,I R= V/I R = 12/3 R = 4 therefore, the required resistance is 4ohms( SI unit of resistance is ohm )
what part of an electric motor transforms electrical energy into mechanical energy
Answer:
Explanation: a
Explain how land breeze and sea breezes occur?
Explanation:
during the daytime the land gets hot and the hot air blows up to the sky and to feel the space the cool you are from the Sea blows to the land this phenomenon is called sea breeze similarly at night the hot air of sea goes up n cool air from land blows to sea which is called land breexe
please mark me the brainliest
what simple machine is a Window Screen
AnswER PIZZA?
Explanation:
What 3 factors should be considered when designing a lighting rod?
Explanation:
A lightning rod (US, AUS) If lightning hits the structure:-
It will preferentially strike the rod and be conducted to ground through a wire.
Instead of passing through the structure, where it could start a fire or cause electrocution.
The parts of a lightning protection system are air terminals (lightning rods or strike) and all of the connectors and supports to complete the system.
What is gravitational force??
Answer:
the force of attraction between all masses in the universe
Explanation:
Have a nice day :)
Un móvil viaja inicialmente con una velocidad de 55 m/s, al cabo de cierto tiempo, su velocidad es de 115 m/s, de repente frena bruscamente con una desaceleración de 14, 500 m/s2. ¿qué distancia recorrerá antes de frenar?
Answer:
Distancia, S = 2.84 metros
Explanation:
Dados los siguientes datos;
Velocidad inicial = 55 m/s
Velocidad final = 115 m/s
Deceleración = 14500 m/s²
Para encontrar qué tan lejos viajaría el automóvil, usaríamos la tercera ecuación de movimiento;
V² = U² + 2aS
115² = 55² + 2*14500*S
13225 = 3025 + 29000S
29000S = 13225 - 3025
29000S = 10200
S = 29000/10200
Distancia, S = 2.84 metros
explain the derivation of Newton's third and second law.
Answer:
Consider an isolated system of 2 bodies A & B. An isolated system means where there is no external force acting.Now let F be the force acting on B by A & F be the force acting on A by B.Now rate of change of momentum of A =dpA/dt and rate of change of momentum of B =d pB/dt
thus FAB=d pB/dt (i)......
FBA=dpA/dt (ii)........
Adding 1 and 2 we get FAB+FBA=d pB/dt+dpA/dt =d(pB+pA)/dt
But if no force is applied momentum will also be 0 because no velocity will be there so rate of change of momentum will also be 0
thus d(pA+pB)/dt=0
therefore FAB+FBA=0
or,FAB=-FBA
(3RD LAW OF MOTION)
What is cerebellum ?
Una pelota q rodaba a 93,6 dm/s, luego de 14,4 segundos se detiene.¿cual fue el valor de su aceleracion?
Answer:
-6,5 ms ^ 2
Explanation:
Dado que;
Velocidad inicial (u) = 93,6 m / s
Velocidad final (v) = 0 m / s
aceleración (a) =?
tiempo empleado (t) = 14,4 segundos
De;
v = u + en
0 = 93,6 + 14,4a
a = -93,6 / 14,4
a = -6,5 ms ^ 2
Por una resistencia de 10 Ω fluyen 5A. ¿Cuál será la diferencia de potencial que se le debe aplicar a la resistencia?
Answer:
V = 50 volts
Explanation:
Given that,
Resistance, R = 10 ohms
Current, I = 5 A
We need to find the potential difference across the circuit. We know that,
V = IR
Put all the values,
V = 5 × 10
V = 50 volts
Hence, the potential difference is equal to 50 volts.
calcula el peso de una persona que viaja a la luna cuya masa es de 105 kg
Answer:
W = 170.62 N
Explanation:
The given question is, "calculate the weight of a person traveling to the moon whose mass is 105 kg".
We need to find the weight of a person on the Moon.
The weight of an object is given by :
W = mg
Where
g is acceleration due to gravity on Moon, g = 1.625 m/s2
W = 105 kg × 1.625 m/s²
W = 170.62 N
Hence, the weight of the person is 170.62 N.
can i have the physical science grade 12 june 2021 paper (common paper)
Answer:
u have to purchase it via online e-commerce platforms
Answer:
what your crazy anong pong common paper
Un automóvil se anuncia con una potencia de 600 hp y cuando se prueba en una subida pesada, alcanza una velocidad máxima de 45 km/h ¿cuál es la fuerza máxima que le imprime el motor?
Answer:
The force is 35808 N.
Explanation:
Power, P = 600 hp = 600 x 746 W = 447600 W
speed, v = 45 km/h = 12.5 m/s
Let the force is F.
P = F v
447600 = F x 12.5
F = 35808 N
Se conecta una pila de 1.5 volt a una luz led de color rojo, el led se enciende mientras esté conectado a la pila. De esta stuación se afirma que:
Answer:
Se requiere corriente para que brille la luz.
Explicación:
Una batería de 1,5 voltios está conectada a una luz LED roja, el LED se enciende siempre que esté conectado a la batería. A partir de esta situación se afirma que se requiere corriente para que brille la luz. La batería tiene corriente eléctrica almacenada que permite que la luz brille hasta que la corriente eléctrica esté presente en la batería. Esta batería se puede cargar durante un período de tiempo cuando está llena, se puede recuperar durante muchas horas.
Is the path of light visible in a Suspension? Give reason.
Answer:
Answer:It is due to tyndall effect that the path of a light ray passing through a suspension is visible. The particles in suspension scatter the beam of light making it clearly visible.
Answer:
it is due to the Tyndall effect so the path of light is visible in a suspension but in solution the path of light is not visible
when a wooden block floats in water displaces 0.006 cubic of the water find the weight of the wooden block when it is in air
Answer:
solve it with the formula 1−0.4=0.6, 0.6Vρg=Vρbg where ρb
Explanation:
The buoyant force acting on an immersed body is equal to the weight of the fluid displaced by it, if the fluid is in rest. In this case, the fluid is accelerating upwards so the buoyant force must also provide the displaced fluid force to accelerate. Therefore, buoyant force will be fVρgeff where V = volume of body and f = fraction of volume of body immersed in fluid and geff=g+a=1.5g.
The buoyant force acting on an immersed body is equal to the weight of the fluid displaced by it, if the fluid is in rest. In this case, the fluid is accelerating upwards so the buoyant force must also provide the displaced fluid force to accelerate. Therefore, buoyant force will be fVρgeff where V = volume of body and f = fraction of volume of body immersed in fluid and geff=g+a=1.5g.When fluid is at rest: f=
The buoyant force acting on an immersed body is equal to the weight of the fluid displaced by it, if the fluid is in rest. In this case, the fluid is accelerating upwards so the buoyant force must also provide the displaced fluid force to accelerate. Therefore, buoyant force will be fVρgeff where V = volume of body and f = fraction of volume of body immersed in fluid and geff=g+a=1.5g.When fluid is at rest: f=⇒ρb=0.6ρ.
The buoyant force acting on an immersed body is equal to the weight of the fluid displaced by it, if the fluid is in rest. In this case, the fluid is accelerating upwards so the buoyant force must also provide the displaced fluid force to accelerate. Therefore, buoyant force will be fVρgeff where V = volume of body and f = fraction of volume of body immersed in fluid and geff=g+a=1.5g.When fluid is at rest: f=⇒ρb=0.6ρ.In the second case: 1.5fVρg=Vρbg+Vρba=1.5Vρbg⇒fρ=ρb⇒f=0.6.
The buoyant force acting on an immersed body is equal to the weight of the fluid displaced by it, if the fluid is in rest. In this case, the fluid is accelerating upwards so the buoyant force must also provide the displaced fluid force to accelerate. Therefore, buoyant force will be fVρgeff where V = volume of body and f = fraction of volume of body immersed in fluid and geff=g+a=1.5g.When fluid is at rest: f=⇒ρb=0.6ρ.In the second case: 1.5fVρg=Vρbg+Vρba=1.5Vρbg⇒fρ=ρb⇒f=0.6.Thus, the fraction of immersed volume remains the same.
The buoyant force acting on an immersed body is equal to the weight of the fluid displaced by it, if the fluid is in rest. In this case, the fluid is accelerating upwards so the buoyant force must also provide the displaced fluid force to accelerate. Therefore, buoyant force will be fVρgeff where V = volume of body and f = fraction of volume of body immersed in fluid and geff=g+a=1.5g.When fluid is at rest: f=⇒ρb=0.6ρ.In the second case: 1.5fVρg=Vρbg+Vρba=1.5Vρbg⇒fρ=ρb⇒f=0.6.Thus, the fraction of immersed volume remains the same.Body will float with 40% of the volume above water surface.
What is the sentence that we use to
remember how to convert metric
prefixes?
Answer:
The mnemonic I can use to memorize the metric prefixes in this order is: Gigantic Monsters Killed One Million Men Napping Peacefully. All right, so again, gigantic monsters killed one million men napping peacefully.
calculate the density of a solid of mass 20kg if it occupies a volume of 4m³
Answer:
Density=Mass/Volume
=20/4 kg/m^3
=5 kg/m^3
hiytreawretyuiouytrdsedrtyuiougfdgiojgfchjkljhjkl;kjhbjkljhbnjknjbnjknbvnm,nbm,nmjj
Answer:
Stimulants are a group of drugs that result in increased activity in the body. Sometimes referred to as “uppers,” these drugs are frequently abused due to their performance-enhancing and euphoric effects. Generally, those who abuse stimulants experience heightened energy levels and enhanced focus.
Stimulants speed up mental and physical processes, which can produce desirable effects in the short-term by increasing levels of dopamine in the brain. While users may feel great due to the short-term effects of stimulants, long-term abuse of these drugs can have significant consequences, which is why it is so important for those who abuse the drugs to get help as quickly as possible.
Explanation:
hope this works
calculate the density of a pure substance if 100cm cubed of it has a mass of 20 grams
Answer:
5
Explanation:
20 x 5 = 100
For its size, the common flea is one of the most accomplished jumpers in the animal world. A 2.50-mm-long, 0.460 mg flea can reach a height of 15.0 cm in a single leap. a) Calculate the kinetic energy per kilogram of mass. b) If a 79.0 kg, 2.00-m-tall human could jump to the same height compared with his length as the flea jumps compared with its length, how high could the human jump
Answer:
1.47 J/kg
120 m
Explanation:
The maximum height it can jump in a single leap 15 cm, = 0.15 m
to get the kinetic energy per kg of mass, we need to find the takeoff speed. The take off speed can be calculated by using the formula
v = [tex]\sqrt{2gh}[/tex]
where h = 0.15
v = [tex]\sqrt{2 * 9.81 * 0.15}[/tex]
v = [tex]\sqrt{2.94}[/tex]
v = 1.715 m/s
energy per kg of mass =
1/2 * (1.715) = 1.47 J/Kg
TJe height a human can jump when compared to the flea is
2 m/2.5 mm * 15 cm =
2/0.0025 *0.15 =
800 * 0.15 = 120 m
Two forces of magnitude 8N and 4N act at right angle to each other. The angle between the resultant and the 8N force is?
Answer:
Draw the vector triangle (head to tail)
Let 8 be adjacent and 4 the opposite side
tan theta = 4 / 8 = .5
theta = 26.6 deg
Brian has an object suspended in the air. It has a mass of 100 kg and is 25 meters above the ground. What is the object’s potential energy?
Explanation:
the PE = Weight x g x Height above ground where g is the gravitational constant (9.8m/s^2)
so tge PE = 100 x 9.8 x 25 = 24500 J
[Assume g = 10m/s?] If a girl is running along a straight road with a uniform velocity 1.5 m/s, find her acceleration. (Ans: 0) a.
Answer:
Her acceleration is 0 m/s²
Explanation:
We note that the motion of the girl is on a straight road, therefore;
The vertical acceleration (e.g. due to gravity, g) on the horizontal motion = 0
The horizontal acceleration, a = (Change in velocity, Δv)/(Change in time, Δt)
For uniform velocity, the change in velocity, Δv = 0
Therefore, fore any change in time, Δt, we have;
a = Δv/Δt
Her acceleration, a = 0/Δt = 0
Her acceleration, a = 0 m/s²
velocity after 2 seconds?
I assume the units are wrong: a = 2 m/s/s, not 2 m/s.
That means the each second, speed increases by 2 m/s. So, after 1 second, it’s going 2 m/s and after 2 seconds, it’s going 4 m/s. As long as the acceleration continued, each seconds would result in a gain of 2 m/s. You could just plug this into:
Vf = Vi + at.
Thus, Vi = 0 and Vf = 4 m/s.
The average speed during these 2 seconds is the average of initial and final speeds:
Vavg = (0 + 4)/2 = 2 m/s
The means that during these 2 seconds, on AVERAGE the bus was going 2 m each second. During the first second, it was going slower than 2 m/s and during the last second it was going faster than 2 m/s, but on AVERAGE, it was going 2 m each second. This is 2m + 2m = 4 m.
You could just plug the numbers into an equation:
X = Vi x t + 1/2 at^2 = 0 + 1/2 x 2 x 2^2 = 0 + 4 = 4 m
So, in conclusion:
the units needed to be corrected
Vf = 2 m/s (this is speed, which is the AMOUNT of velocity, since velocity requires a direction)
Distance = 4 m
2.5K views
Atoms of two different elements must have different
electrical charges.
numbers of neutrons.
atomic numbers.
energy levels
Answer:
Number of neautrons
Explanation:
Atoms from two different elements may have the same number of neutrons, but never the same number of protons. The number of protons is unique to the element and represents the atomic number. (sorcastic.org)
Answer:
C.
Explanation:
If you travel 40 m South and 100 m North, what is your displacement?
Answer:
[tex]displacement = ( + 100) + ( - 40) \\ = 60 \: m[/tex]
Answer:
60m
Explanation:
A 500 kg sports car accelerates uniformly from rest reaching a speed of 30 m/s in 6 seconds .Find the distance travelled by the car in 6 second
Answer:
the distance traveled by the sports car is 90 m
Explanation:
Given;
mass of the sports car, m = 500 kg
initial velocity of the sports car, u = 0
final velocity of the sport car, v = 30 m/s
time of motion of the car, t = 6 s
The distance traveled by the sports car is calculated as;
[tex]s = (\frac{u+v}{2} )t\\\\s = (\frac{0+30}{2} ) \times 6\\\\s = 15 \times 6\\\\s = 90 \ m[/tex]
Therefore, the distance traveled by the sports car is 90 m
QUESTION 2
Two identical Insulated, graphite-coated polystyrene spheres are suspended from
threads. The spheres are held a small distance apart. The charges on the Sphere P
and Q are -2,4 nC and + 5,6 nC respectively.
P
When the spheres are released they move towards each other.
2.1 Explain why the spheres move towards each other
when they are released.
The two spheres now touch each other and then separate.
2.2 Calculate the charge on each sphere after they touch
and separate.
2.3 Write down the number of electrons found on Sphere
P after it touched Q and separated.
2.4 Which way will electrons move? Write only from P to
Q. or from Q to P, or neither way?
2.5 Explain your answer to Question 6.4.
Answer:
2.1 The spheres move towards each other because unlike charges attract, while like charges attract
2.2 +1.6 nC each
2.3 -9.98641451914 × 10⁹ electrons
2.4 P to Q
2.5 Sphere Q has a higher electric potential than Sphere P, therefore electrons move from P to sphere Q
Explanation:
The given parameters are;
The number of charges spheres in the system = 2 spheres
The type of spheres = Identical spheres
The charges on the spheres;
The charge on sphere, P, q₁ = -2.4 nC
The charge on sphere, Q, q₂ = +5.6 nC
2.1 The spheres move towards each other because unlike charges attract, while like charges attract each other
However, when the spheres touch each other, the sum of the charges are equally distributed across both spheres until they both have the same amount and type of charge and therefore have no net attraction and repel each other
2.2 The charge on the each sphere after they separate, Q = (q₁ + q₂)/2
∴ Q = (-2.4 nC + 5.6 nC)/2 = +1.6 nC
The charge on the each sphere after they separate, Q = +1.6 nC
2.3 The charge of an electron, e = -1.602176634 × 10⁻¹⁹ C
The number of electrons found on Sphere P after separation, 'n', is given as follows;
n = 1.6 × 10⁻⁹/(-1.602176634 × 10⁻¹⁹) ≈ -9986414519.14
The number of electrons found on Sphere P after separation, n = Less 9.98641451914 × 10⁹ electrons
2.4 Sphere P is negatively a charged while Sphere Q is positively charged, therefore, there are more electrons in Sphere P, than positively charged ions and electrons will move from;
P to Q
2.5 Sphere Q is positively charged and has lost electrons and it is electron deficient having a high affinity for electrons, while Sphere P is negatively charged and therefore has an excess amount of electrons
Therefore, due to the electric potential difference between Sphere Q and Sphere P, current will move from the high electric potential sphere, Sphere Q to Sphere P while electrons will move in the reverse direction, which is from Sphere P to Sphere Q.
Una persona A tiene cierta cantidad de masa y una persona B tiene la mitad de masa de la persona A ¿como es el peso de B respecto al de A?
Answer:
El peso de la persona B es la mitad del peso de la persona A.
Explanation:
El peso de la persona B puede calcularse con la siguiente ecuación:
[tex] P_{B} = m_{B}g [/tex] (1)
En donde:
[tex]m_{B}[/tex]: es la masa de la persona B
g: es la gravedad
Dado que la persona B tiene la mitad de la masa de la persona A, tenemos:
[tex] m_{B} = \frac{m_{A}}{2} [/tex] (2)
En donde:
[tex]m_{A}[/tex]: es la masa de la persona A
Al introducir la ecuación (2) en (1) nos queda:
[tex] P_{B} = \frac{m_{A}}{2}g [/tex] (3)
Sabemos que el peso de la persona A está dado por:
[tex] P_{A} = m_{A}g [/tex] (4)
Entonces, al introducir la ecuación (4) en (3) tenemos:
[tex] P_{B} = \frac{P_{A}}{2} [/tex]
Por lo tanto, el peso de la persona B es la mitad del peso de la persona A.
Espero que te sea de utilidad!
which of the following refers to stored energy that an object has due to its position?
Explanation:
Energy stored in an object due to its position is Potential Energy. Energy that a moving object has due to its motion is Kinetic Energy.