A cantilever of constant depth carries a uniformly distributed load on the whole span. To make the maximum stress at all sections the same, the breadth of the section at a distance x from the free end should be proportional to​

Answer:

150 km/h

Explanation:

A speed measures a distance traveled over a period of time.  We usually express speed in terms of km/h for example.

That train travels 600 km in 4 hours.

To find its average speed, we just need to divide 600 km / 4 hours

We then get 150 km/h

That's said to be the average speed since it's the total distance in the total of time.... it might have been slower or faster at different points during that distance/time.

Answer:

Frequency

Explanation:

Answer:

Frequency

Explanation:

Final answer:

The student will need to provide a force of approximately 95.5 N to turn the wheel and lift the bucket of water.

Explanation:

To calculate the force the student needs to provide to the wheel, we can use the concept of mechanical advantage. The mechanical advantage of a wheel and axle is given by the ratio of the radius of the wheel to the radius of the axle. In this case, the mechanical advantage is:

MA = radius of wheel / radius of axle

MA = 55 cm / 15 cm

MA = 3.67

Therefore, the force the student needs to provide to the wheel is:

Force = 350 N / MA

Force = 350 N / 3.67

Force ≈ 95.5 N

Answer:

A- similar to todays climate

Explanation:

I answer d and got it wrong

Fossils found in the La Brea tar pits indicate a California climate that was similar to today's climate. The correct option is A.

The La Brea Tar Pits is famous for the Fossils found in the Ice Ages,. The California climate still falls within our current climate.

California climate is like Mediterranean with somewhat like warm, dry summers with mild and wet winters. The average coastal temperature is around 70°F to 80°F.

Thus, fossils found in the La Brea tar pits indicate a California climate that was similar to today's climate. The correct option is A.

Learn more about La Brea.

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Answer:Physicists deal with the four fundamental forces, which are the gravitational force, weak nuclear force, strong nuclear force, and electromagnetic force. The electrostatic force is associated with the electromagnetic force. Here is the definition of electrostatic force, its history, and a look at how it's calculated

Explanation:

Answer:

Electrostatics is a branch of physics that studies electric charges at rest. Since classical physics, it has been known that some materials such as amber attract lightweight particles after rubbing.

Explanation:

Electrostatic forces are attractive or repulsive forces between particles that are caused by their electric charges. This force is also called the Coulomb force or Coulomb interaction. It is named for the French physicist Charles-Augustin de Coulomb, who described the force in 1795.

Answer:

E= 2 J

Explanation:

For this case we see how the mechanical energy is generated by the potential energy due to the change of position. We can express that as

E=m*g*h

Being "m" the mass of the object, "g" the value of the acceleration by gravity and "h" the distance traveled in the movement. So

E=m*g*h=0.8Kg*10m/s2*(0.75-0.5)=2J

Done

Answer:

Increasing the masses of the objects and decreasing the distance between the objects

Explanation:

The force of gravity pulls every body with mass towards the center of the earth.This is the force of attraction between two bodies as a result of their masses.Gravity force is directly proportional to the mass of a body.A body with more mass experiences a greater force of gravity.Additionlay, when the distance between two bodies decreases, the gravitational force increases.

Answer:

Increasing the masses of the objects and decreasing the distance between the objects

Explanation:

Answer:

The Sun. The heat that eventually causes the earth to warm actually comes from the sun. The sun is a huge ball of gases, mainly hydrogen. Every day, the hydrogen in the sun is converted into helium through millions and millions of chemical reactions.

Does this help?

Explanation:

Each resistor has a resistance of R.

In the first problem, each row of three resistors in series has a resistance or 3R.

A₂ = 4A, so the voltage drop across the rows is:

V = IR

V = (4)(3R)

V = 12R

The voltage drop equals the voltage gain (Kirchoff's voltage law).  The battery has a voltage of 9V, so:

9 = 12R

R = 0.75 Ω

The three rows are in parallel with each other, so the total resistance is:

∑R = (1/(3R) + 1/(3R) + 1/(3R))⁻¹

∑R = R

∑R = 0.75 Ω

The current A₁ can be found with Ohm's law:

V = IR

9 = (A₁) (0.75)

A₁ = 12 A

Using Ohm's law to find V₁, V₂, and V₃:

V = IR

V₁ = (4)(0.75)

V₁ = 3V

V₂ = (4)(2×0.75)

V₂ = 6 V

V₃ = (4)(3×0.75)

V₃ = 9 V

In the second problem, all the resistors are in series.  So the total resistance is:

∑R = 8R

The battery voltage is 16V, and A₂ = 6A.  So using Ohm's law:

V = IR

16 = (6)(8R)

R = 1/3 Ω

Since there's only one loop, the current is the same at all points.  So A₁ = A₂ = 6A.

Using Ohm's law to find each voltage:

V = IR

V₁ = (6)(1/3)

V₁ = 2V

V₂ = (6)(2×1/3)

V₂ = 4 V

V₃ = (6)(4×1/3)

V₃ = 8 V

V₄ = (6)(2×1/3)

V₄ = 4 V

For the circuit shown in the left side of the image, A₁=12A, V₁=3V, V₂=6V, and V₃=9V.

The voltage source is Vs = 3(3V) = 9V is connected in parallel to the three branches that each contain three equals light bulbs, the three branches are in parallel meaning that the voltage in each branch is 9V.

The current through one branch is A₂ = 4A, we can calculate the equivalent resistance in that branch using Ohm's Law:  

Req = V/I, where I = A₂ = 4A

Req = 9V/4A = 2.25Ω

We can calculate the resistance in each light bulb, there are three light bulb in each branch that have a equivalent resistance of 2.25Ω, the light bulbs are in serie, so:

Req = R + R + R = 3R

The resistance of each light bulb is R = Req/3 = 2.25Ω/3 = 0.75Ω

To calculate V₁, using Ohm's Law:

V₁ = I R = (4A)(0.75Ω) = 3V

Then, the other branches are in parallel and it has the same amount of light bulbs and the same characteristics, each branch has a equivalent resistance of 2.25Ω, and each light bulb has a resistance of 0.75Ω.

To calculate V₂ and V₃:

We know that the voltage in each branch is 9V, each light bulb has a drop of voltage of 3V. So, the total voltage in one branch is the sum of each drop of voltage on each light bulb Vt = 3V + 3V + 3V = 9V.

V₂ = 3V + 3V = 6v

v₃ = Vt = 3V + 3V + 3V = 9V

To calculate the total current A₁ through the circuit, we know that the current through each branch is 4A, the total current A₁ is:

A₁ = 3A₂ = 3(4A) = 12A

For the circuit shown in the right side of the image, A₁=A₂=6A, V₁=2V, V₂=V₄=4V, and V₃=8V.

The voltage source is Vs = 4(-4V) = -16V connected in series with 8 light bulbs, the current flow through each light bulb, It= A₁ = A₂ = 6A. The voltage source is Vs= -16V, the '-' means that the current flows in the opposite direction.

To calculate the equivalent resistance of the circuit, using Ohm's Law:

Req = Vs/It = 16V/6A = 2.67Ω

The resistance of each light bulb is R = Req/8 = 2.67Ω/8 = 0.33Ω

The drop of voltage on each light bulb is:

V = It R = (6A)(0.33Ω) = 2V

V₁ = 2V

V₂ = V₄ = 2(2V) = 4V

V₃ = 4(2V) = 8V

Answer:

0.75 Amps

Explanation:

I had this question and this was right

Answer:

Current, I = 0.75 amps

Explanation:

Given that

Supplied voltage, V = 1.5 volts

Value of resistor, R = 2 ohms

Ohm's law to used to determine the current in the circuit. Mathematically, it is given by :

V = I R

I = current flowing in the circuit

[tex]I=\dfrac{V}{R}[/tex]

[tex]I=\dfrac{1.5\ V}{2\ ohms}[/tex]

I = 0.75 amps

So, the current flowing in the circuit is 0.75 amps. Hence, the correct option is (b) ''0.75 amps''.

Answer:

B. Both electric fields and forces ...

Explanation:

Answer:

B. Both electric fields and forces decrease in strength as the distance increases.

Explanation:

from the Coulomb's law

[tex]F=\frac{k q_{1} q_{2} }{r^{2}}[/tex]

electrif field is also expressed as

F = qE., so

[tex]E = \frac{k q}{r^{2}}[/tex]

it can seen that electric force and electric field and dependent on distance. that is inverse square of distance.

so, if the electric force and eletric field decreases in strength, it is because the distance of separation has increased.

Answer:

False

Explanation:

Acceleration is defined as the rate of change of velocity:

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

On a speed-time graph, the slope of the curve gives the magnitude of the acceleration. In fact, the slope of the curve in a speed- time graph is

[tex]m=\frac{\Delta y}{\Delta x}[/tex]

where

[tex]\Delta y[/tex] is the increment in the y-variable, so it corresponds to the change in speed

[tex]\Delta x[/tex] is the increment in the x-variable, so it corresponds to the change in time

so the slope corresponds to

[tex]m=\frac{\Delta v}{\Delta t}[/tex]

which is the magnitude of the velocity. However, in order to define acceleration we need an additional piece of information: the direction. Since speed is a scalar, direction of motion is not provided, so we cannot fully define acceleration from a speed-time graph.

Answer: Quickly moving neutrons coming out of the reaction are slowed down by water. The water heats up and turns into steam. The steam turns the turbine and produces electricity.

Explanation: Hope that helps :D

The Answer is: D. Quickly moving neutrons coming out of the reaction are slowed down by water. The water heats up and turns into steam. The steam turns the turbine and produces electricity.

Answer:

160,000 N

Explanation:

Given:

m = 320,000 kg

v₀ = 0 m/s

a = constant

t = 57 s

Δx = 810 m

Find: Fnet

Apply Newton's second law:

∑F = ma

Fnet = ma

To find Fnet, we must first find the acceleration.

x = x₀ + v₀ t + ½ at²

810 m = 0 m + (0 m/s) (57 s) + ½ a (57 s)²

a = 0.50 m/s²

Fnet = (320,000 kg) (0.50 m/s²)

Fnet = 160,000 N

Answer:

D.It bounces the light away from a focal point.

Explanation:

A convex mirror reflects the incident light away from the focal point of the mirror hence forming a virtual image.Light from a point will be bounced into different directions according to the law of reflection rather than being directed to a single point.To know the image position, an extrapolition of the relected line should be extended behind the mirror to locate the virtual image.

A convex mirror forms an image by reflecting light away from a focal point due to its outward facing curved surface, producing a smaller and upright image.

A convex mirror forms an image by bending, or refracting, light away from a focal point (B). This is due to the mirror's curved, outward facing surface. When light rays strike the mirror, they are reflected and diverge outward, appearing to come from a virtual focal point behind the mirror. As a result, the formed image is smaller than the object and is upright, which is why convex mirrors are often used in places where a wide field of view is required, such as in vehicle side mirrors and security mirrors in shops.

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Answer:

32.5 m/s

Explanation:

The total momentum must be conserved before and after the collision:

[tex]p_i = p_f\\m_c u_c + m_t u_t = m_c v_c + m_t v_t[/tex]

where

m_c = 300 kg is the mass of the car

m_t = 600 kg is the mass of the truck

u_c = 60 m/s is the initial velocity of the car

u_t = 10 m/s is the initial velocity of the truck

v_c = 15 m/s is the final velocity of the car

v_f is the final velocity of the truck

Solving for v_f, we find:

[tex]v_f = \frac{m_c u_c + m_t u_t - m_c v_c}{m_t}=\frac{(300 kg)(60 m/s)+(600 kg)(10 m/s)-(300 kg)(15 m/s)}{600 kg}=32.5 m/s[/tex]

The best thermal conductor is copper.

Thermal conductivity is the measurment of  materials ability to pass heat through it.

Materials with a higher thermal conductivity can effectively pass heat and easily take up heat from their environment.

Poor thermal conductors puts resistance to heat flow and take heat slowly from the surroundings.

The thermal conductivity can be measured in Watts per meter per degree Kelvin (W/m•K).

Copper thermal conductivity is 398 W/m•K which is more than wood, plastic and paper.

Therefore the correct answer is copper (option B)

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Hi!

So I don't know what the heck net force is, but I think the box would move right because there is more force moving to the right.

Answer:

The plane’s acceleration from A to B is

[tex]a =83.33\ m/s^2[/tex]

Explanation:

The acceleration of an object is a measure of how its speed changes over time.

In this case, we know that the plane initially has a velocity of 5000 m/s when it passes through point A, and when it passes through point B, 60 seconds later it has a velocity of 10,000 m/s.

Then the average acceleration is calculated as

[tex]a =\frac{s_2-s_1}{t_2-t_1}[/tex]

Where

[tex]s_2 = 10 000[/tex] is the final speed

[tex]s_1=5000[/tex] is the initial velocity

[tex]t_2 -t_1=60[/tex] is the time it took for the object to reach the final speed

Then

[tex]a =\frac{10000-5000}{60}[/tex]

[tex]a =\frac{5000}{60}[/tex]

[tex]a =83.33\ m/s^2[/tex]

Answer:

1) A, C, and D

2) D

Explanation:

1)  In ice, for instance, the temperature decreases to become a solid, so B does not apply.

2) In most plasma's, the atoms don't collide into each other.

Answer:1 C

2 A

Explanation:

Liquids tend to gain more kinetic energy than solids. Energy is related with temperature. As the kinetic energy is increased so also is the temperature. This increase in temperature reduces the intermolecular attraction in solids.

Plasma comprise of positively Charged and negatively charged particles and occurs when the atoms in a gas becomes ionized.

Answer:

That the Sun was the center of the universe.

Explanation:

Ptolemy believed in geocentrism, which means that the Earth is the center of the Universe. This was also supported by Aristotle. Copernicus on the other hand believed in a heliocentric system, which proposes that the sun is the center of the universe.

Answer:

Earth rotates on its axis and orbits the sun.

Explanation:

Ptolemy believed earth is stationary and is located at the center of the universe. Every celestial object moves around the earth.

It was easier to assume that the earth is not moving since it appears to be stationary to people dwelling on it and to assume that the celestial objects are actually rotating the earth since they appear to be moving.

This is the perfect example that looks can be deceiving. In the ancient times the circle is believed to be a divine shape since it is perfect and the two major celestial objects, the sun and the moon, moves in a circular path. But it turns out, not everything rotates the earth in circular orbit. So Ptolemy proposed nested circular orbits. Which was so complex and farfetched.

Copernicus, a student of Tycho Brahe, (remember Tycho Brahe is an advocate of geocentric theory) inherited Tycho brahe's records of the movements of mars. He could not explain the retrograde motion of mars within the limits of geocentric theory.

He then suggested to remove the concept of divinity, associated with the earth being the center of all universe and to treat earth like every other celestial object. He was the first ever radical who steered us on the right path. In his heliocentric theory, earth rotates on its axis and orbits the sun. This can explain the retrograde motion of mars very easily

Answer:

B protons

Explanation:

- The atomic number of a nucleus (often labelled with Z) is the number of protons inside the nucleus

- The mass number of a nucleus (often labelled with A) is the sum of the protons and the neutrons inside the nucleus

- The number of electrons in a neutral atom is equal to the number of protons inside the nucleus

Therefore, the correct answer is

B protons

However, A (electrons) could also be considered correct if we are talking about a neutral atom.

Hello!

There are actually four states of matter. The three main ones are solids, liquids and gasses. The fourth one is called plasma.

Solids have a definite shape and volume.

Liquids have a definite volume but not shape.

Gas doesn’t have a definite volume or shape.

Plasma is like gas but made of electricity charged particles and very hot.

Answer:

C) baby chicks under a heat lamp

Explanation:

The heat transfer by radiation is observed in the case that some chicks are heating with a heat lamp since heat is transmitted without contact between the surfaces

In the case of ironing the shirt, the transfer is made by the contact of the iron with the shirt.  In the case of the lava lamp, the most important transfer is that of light energy, and in the case of coffee in the snow, when the coffee cup is placed in the snow, the heat will also be transferred by the contact of the surfaces

Answer:

The answer is C.)

Explanation:

I hope this helps :)

Answer:

980 J

Explanation:

The change in box's energy is equal to its change in gravitational potential energy:

[tex]\Delta U = m g \Delta h[/tex]

where

m = 50 kg is the mass of the box

g = 9.8 m/s^2 is the acceleration due to gravity

[tex]\Delta h= 2m[/tex] is the change in height of the box

Substituting numbers, we find

[tex]\Delta U = (50 kg)(9.8 m/s^2)(2 m)=980 J[/tex]

Answer:

This is late, but your answer would be 1,000 J

Explanation:

How I got my answer was I used the Gravitational Potential Energy Calculator on the calculator soup. the answer I got when I plugged 50 and 2 into the calculator is 980, but since it's not on the list of choices, I went with the closest one, 1,000 J

I got it correct on my test; here is the proof

[tex]R=\frac{U}{I}=\frac{0.5V}{180\cdot10^{-6}A}\approx2.78k\Omega[/tex]

Answer with explanation:

The energy which is stored in an object because of its position or state is known as the Potential energy.

Here are a few examples of objects having potential energy:

1. A car on the hill - since the car is on a heightened position, it will have potential energy.

2. A stretched rubber band - when a rubber band is stretched to one side, it has potential energy.

3. A book placed on a table - a book on the table before it falls down has potential energy.

Answer:

[tex]6.67\cdot 10^{-3} N[/tex]

Explanation:

The gravitational force between two objects is given by

[tex]F=G\frac{m_1 m_2}{r^2}[/tex]

where

G is the gravitational constant

m1, m2 are the two masses

r is the separation between the two masses

In this problem, we have

[tex]m_1 = m_2 = 2.0 \cdot 10^4 kg[/tex] the mass of each truck

r = 2.0 m is their separation

Substituting,

[tex]F=(6.67\cdot 10^{-11}) \frac{(2.0\cdot 10^4 kg)^2}{(2.0 m)^2}=6.67\cdot 10^{-3} N[/tex]

The gravitational force between the two trucks is calculated using Newton's Universal Law of Gravitation. The force is very small due to the relatively small masses of the trucks compared to large bodies like the Earth.

The gravitational force between the two trucks can be calculated using Newton's Universal Law of Gravitation. This law is given in the form F = G * (M1 * M2) / R², where F is the gravitational force, G is the gravitational constant (6.67 × 10^-11 Nm²/kg²), M1 and M2 are the masses of the two bodies in kilograms, and R is their separation in meters.

For the two trucks, the equation can be applied as follows: F = 6.67 × 10^-11 Nm²/kg² * ((2.0x10^4 kg) * (2.0x10^4 kg)) / (2.0 m)². This gives us the gravitational force that the two trucks exert on each other.

It is worth noting that while the gravitational forces between such small bodies are noticeable, they are extremely small. This is consistent with our everyday experience that we do not feel the gravitational force of other nearby objects, but only the force exerted by the Earth, which is of a much larger mass.

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Answer:here’s the graph d

Explanation:

Apex