If the difference in electronegativity values between two atoms is more than 2.0, nonpolar covalent bonds generally form.

ITS FALSE

Answer:

I believe there are 20 Neutrons in Calcium.

Explanation:

Final answer:

Calcium has several isotopes, with calcium-40 being the most common and containing 20 neutrons. The number of neutrons in an isotope of calcium can be found by subtracting the atomic number (20) from its mass number. Other isotopes like calcium-48 contain 28 neutrons.

Explanation:

To determine how many neutrons are in calcium, we look at its atomic number (Z) and its mass number (A). Calcium's atomic number is 20, which means it has 20 protons.

The most common isotope of calcium is calcium-40, which has a mass number of 40. To find the number of neutrons, we subtract the atomic number from the mass number:

Neutrons = Mass number - Atomic number = 40 - 20 = 20 neutrons

Therefore, calcium-40 contains 20 neutrons. There are other isotopes of calcium as well, such as calcium-48, which has 28 neutrons, and it is characterized by a half-life of about 2×10¹⁶ years, making it relatively stable.

When calcium forms a cation, such as Ca²⁺, it still retains its 20 protons and the number of neutrons does not change due to electron gain or loss. The resulting ion would have 18 electrons and carry a +2 charge.

Answer:

A

Explanation:

Answer:

(a) 4070 N

(b) 9.95 m/s

Explanation:

(a) Draw a free body diagram of the stunt man when he is at the top of the loop.  There are two forces: normal force N pushing down and weight force mg pulling down.

Sum of forces in the radial (-y) direction:

∑F = ma

N + mg = m v² / r

N = m v² / r − mg

N = (101 kg) (22.5 m/s)² / (10.1 m) − (101 kg) (9.8 m/s²)

N = 4070 N

(b) At the minimum speed, there is no normal force at the top of the loop.

∑F = ma

mg = m v² / r

g = v² / r

v = √(gr)

v = √(9.8 m/s² × 10.1 m)

v = 9.95 m/s

Answer:

Force B

Explanation:

Friction Force

It's a force that appears when an object is tried to move on a rough surface. There are two cases: when the object is at rest, we have the friction static coefficient and when the object is already moving, we have the dynamic coefficient. The static coefficient is usually greater than the second because it's harder to overcome the friction when the object is at rest.

We are told that John pushes the bed to the left with enough force to overcome the force of friction. If the movement is intended to be to the left side, the friction force appears to the right, since it always opposes to the movement. Thus the force B is the one who represents the friction force in this situation

No, the speed at which an object falls is not equal to the acceleration at which it falls.

Answer:

Option B

Explanation:

Speed is defined as how fast an object can cover a specific distance and in what time it covers. So it is measured as the ratio of distance covered to the time taken to cover that distance. While acceleration is the rate of change of velocity. Moreover, speed is a scalar quantity and acceleration is a vector quantity. So most of the times, the direction will play an important role in the varying values of speed and acceleration. Also, acceleration of an object will depend upon the force and mass of the object. Thus, speed and acceleration will not attain same value always.

Answer:

Statics which is when dealing with forces acting out on body and the possible motives of the body system. Kinetics which explains the motion that can occur in any type of situation.

Explanation:

Answer: 12000 kg m/s

Explanation:

According to the Impulse-Momentum Theorem, we have:

[tex]F \Delta t= \Delta p[/tex]

Where:

[tex]F=3000 N[/tex] is the exerted force

[tex]\Delta t=4 s[/tex] is the time interval

[tex] \Delta p[/tex] is the change in momentum or impulse

Then:

[tex](3000 N)(4 s)= \Delta p[/tex]

[tex]\Delta p=12000 kg m/s[/tex]  This is the impulse impacted on the object

Answer:

poor diet andlack of exersise

Explanation:

Answer:

8.4375m a second

Explanation:

Again, this is such an easy question that I see everywhere. The way to figure this out is to divided the total distance he or she covered, which was 27m, by the time it took him or her to do so, which was 3.2s, so the equation is 27 divded by 3.2 which is 8.4375.

Hope this helps and have a great day.

Answer:

8.44 m/s

Explanation:

Averag v = distance/time

= 27m/3.2s

= 8.44 m/secs

Answer:

The Answer is 2.6m/s(m/s)

Explanation:

Just took the test!

Answer:

2.6 m/s2............................

Answer:

13.5

Explanation:

x= Length

.5 = Center Point

x=0.5(9)= 4.5

So total length over the edge will be given as

Length (L) =9+4.5=13.5

The maximum overhang for two uniform bricks of length 18 m each, when stacked, is 13.5 m. This is determined by considering the center of mass and static equilibrium of the bricks.

The question involves the concept of static equilibrium and center of mass in the field of physics. When two uniform bricks of length 18 m are stacked and placed such that they overhang the edge of a surface, the maximum overhang is achieved when the center of mass of the system is still supported by the surface. To find the maximum overhang for two bricks, we can apply the principle of moments. For two stacked bricks, the bottom brick can overhang by half its length, namely 9 m. The top brick can be shifted further out but must keep its center of mass over the bottom brick. The maximal overhang of the second brick is therefore half of what remains from the first brick, which is ½ × 9 m = 4.5 m. Hence, the maximum overhang for the top brick is 4.5 m beyond the end of the bottom brick, which itself overhangs by 9 m. Consequently, the total maximum overhang for two stacked bricks is 13.5 m.

Explanation:

Energy

It is ability to do work

It is of different types out of which mechanical energy is also one of the type .

Mechanical energy

It is the energy possessed by body due to its position or motion .

It is of two types :

Kinetic energy

Potential energy

Potential energy

It is the energy possessed by body due to its position or state .

It is given by P.E =mx gx h

Kinetic energy

It is the energy possessed by body due to its motion .

It is given by K.E=1/2 mv²

Law of conservation of energy

It states that energy can be converted from one form to another but total energy of the system remains same .

That is why : in above asked question ,when body is moving it has kinetic energy , when stops the kinetic energy gets converted to potential energy , but the total energy of system remains same .

The object's kinetic energy would decrease, its potential energy would increase, and its total mechanical energy would remain the same.

The total mechanical energy (E) of a system is the sum of its kinetic energy (KE) and its potential energy (PE).

E = KE+ PE

conservation of energy:

whenever an object is acted upon by a non-dissipative conservative force its total mechanical energy remains conserved.

So, when the object slows down, its velocity decreases, and therefore its kinetic energy decreases. Since the total mechanical energy remains conserved, the loss in kinetic energy is converted into gain in potential energy, and the potential energy increases.

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Answer:

Thermal physics is the combined study of thermodynamics, statistical mechanics, and kinetic theory of gases. This umbrella-subject is typically designed for physics students and functions to provide a general introduction to each of three core heat-related subjects. Other authors, however, define thermal physics loosely as a summation of only thermodynamics and statistical mechanics.

Explanation:

Final answer:

Thermal physics is a branch of physics focused on energy transfer and the behavior of particles in relation to heat, including study areas like thermochemistry and thermodynamics. It encompasses thermal agitation, heat transfer, and laws of energy conservation.

Explanation:

Thermal physics is an area of physics that deals with the energy transfer, thermal properties of materials, and the behavior of particles related to heat. It encompasses topics such as thermochemistry, the laws of thermodynamics, and thermal agitation. Thermal agitation refers to the random motion of atoms and molecules in any object with a temperature above absolute zero, resulting in the emission and absorption of radiation. In essence, thermal physics explores how thermal energy, or the kinetic energy of particles, flows and changes within systems. Thermal energy is a form of kinetic energy at the microscopic scale, crucial in understanding heat transfer, and how it influences work and energy conservation.

At the macroscopic level, thermal physics analyzes how heat transfer affects the internal energy of systems, aligning with Big Ideas from the AP Physics Curriculum Framework. Heat transfer describes energy movement from a hotter object to a cooler one, leading to temperature variations and potential work, exemplified by heat engines. Fundamental laws of physics, including the law of conservation of energy, govern these thermal interactions and their efficiencies.

Answer:

A horizontal line means the object is not changing its position - it is not moving, it is at rest. • A downward sloping line means the object is returning to the start. SPEED-TIME GRAPHS. Speed-Time graphs are also called Velocity Time graphs.

Explanation:

Answer: The object is moving in a constant speed.

Explanation: In a distance time graph a horizontal line indicates a zero slope which means the object maintains a constant speed in motion. Rising slope an increase in speed and a slope going down indicates a decrease in speed.

Answer:

b

Explanation:

The main idea can be the Role of Heat Transfer Methods in the Distribution of Earth's Energy.

The main idea of a passage is the central message or information the author is trying to pass to the audience.

The main idea of a passage is the author's main purpose of writing the passage.

From the given options, the main idea of the passage can be determined if the central message of the passage can be deduced.

The main idea can be "The Role of Heat Transfer Methods in the Distribution of Earth's Energy"

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A) Acceleration in part A: [tex]6.1 m/s^2[/tex]

B) Acceleration in part B: [tex]2.7 m/s^2[/tex]

C) Acceleration in part C: [tex]1.5 m/s^2[/tex]

Explanation:

A)

The picture of the problem is missing: find it in attachment.

The acceleration of a body is equal to the rate of change of its velocity:

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

where

v is the final velocity

u is the initial velocity

[tex]\Delta t[/tex] is the time it takes for the velocity to change from u to v

In part A of the race, we have:

u = 0

v = 5.5 m/s (estimate)

[tex]\Delta t = 0.9 - 0 = 0.9 s[/tex]

So the acceleration is

[tex]a=\frac{5.5-0}{0.9}=6.1 m/s^2[/tex]

B)

In part B of the race, we have:

u = 5.5 m/s is the initial velocity (estimate)

v = 9.5 m/s is the final velocity (estimate)

[tex]\Delta t = 2.4 - 0.9 = 1.5 s[/tex] is the time interval between the two points considered

Therefore, using the equation for the acceleration, we can find the acceleration in part B:

[tex]a=\frac{9.5-5.5}{1.5}=2.7 m/s^2[/tex]

C)

In part C of the race, we have:

u = 9.5 m/s is the initial velocity (estimate)

v = 11 m/s is the final velocity (estimate)

[tex]\Delta t = 3.4 - 2.4 = 1 s[/tex] is the time interval between the two points considered

And therefore, the acceleration in part C of the race is:

[tex]a=\frac{11-9.5}{1}=1.5 m/s^2[/tex]

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Answer:

so that they don't calch fire

Answer:

1.76 m/s^2

Explanation:

mass of box, m = 5.5kg

net force , F = 9.7N

acceleration = ?

F = m x a

a = F/m = 9.7/5.5

a = 1.76 m/s^2

Answer:

V= 250 volts

Explanation:

V=IR

V=25*10

V=250 volts

Answer: 250 V

Explanation: Ohm's Law is expressed in the given equation:

V = I x R

Substitute the values of I ( current) and R ( resistance)

V = 25 A x 10 ohms

= 250 V

Answer:

A.)

Explanation:

The answer would be A. because when they are burned, they release harmful pollution into the air causing the environment to be polluted by them.

It can't be B because it is saying the opposite which is false.

It is not C because solar power is a renewable resource not non-renewable like the question asked.

It is also not D because a non-renewable resource is one that cannot be replaced but this is saying that they can be replaced which is incorrect.

The answer would be A.

Answer:

49N

Explanation:

Basically, think of this problem as asking how much the book weighs, as that is all weight is, how much force you exert on whatever surface you're on.

Thus, the force due to gravity Fgrav = mg = 5 * 9.8m/s^2 = 49N.

The force will be "49 N". A complete solution is provided below.

According to the question,

Mass of books,

m = 5 kg

We know the value,

g = 9.8 m/s⁻¹

Now,

The force exerting on the table, will be:

→  [tex]F = mg[/tex]

By substituting the given values in the above formula, we get

→      [tex]=5\times 9.8[/tex]

→      [tex]=49 \ N[/tex]

Thus the above answer is correct.

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Wearing rubber or stay away from water or/ and a conductor

Answer:

At momentum zero, kinetic energy = zero

At momentum 10, kinetic energy can never be equal to zero.

Explanation:

An object is said to have zero momentum when either its mass or its velocity is zero. Since, negetive mass doesn't exist, the velocity should be zero and this case, the object must be at rest. Momentum is zero when change in velocity is zero, but kinetic can never be zero when body is motion or has a momentum of 10.

Answer:

Some examples of levers include more than one class, such as a nut cracker, a stapler, nail clippers, ice tongs and tweezers. Other levers, called single class levers include the claw end of a hammer.

Explanation:

Answer:

Some examples of levers include more than one class, such as a nut cracker, a stapler, nail clippers, ice tongs and tweezers. Other levers, called single class levers include the claw end of a hammer.

Explanation:

Answer:

b

Explanation:

antibiotics are made with viruses so that ou body can get immune to the virus

Answer:

C: Chemical

Hope this help !!!!

C. Chemical

~Sarah Robinsen

Answer:

58.82 Seconds

Explanation:

50m/0.85m/s=58.82s

The horizontal range of the missile is b) 176 m

Explanation:

The motion of the missile is a projectile motion, so it consists of two independent motions:  

- A uniform motion with constant velocity along the horizontal direction  

- A uniformly accelerated motion with constant acceleration (equal to the acceleration of gravity) in the vertical-downward direction  

To find the time of flight of the missile, we study the vertical motion. We can use the following suvat equation:

[tex]s=u_y t+\frac{1}{2}at^2[/tex]

where:

s = 75 m is the vertical displacement of the missile (the height of the building)

[tex]u_y=0[/tex] is the initial vertical velocity  (the missile is thrown horizontally)

t is the time of flight

[tex]a=g=9.8 m/s^2[/tex] is the acceleration of gravity

Solving for t, we find the time of flight:

[tex]t=\sqrt{\frac{2s}{g}}=\sqrt{\frac{2(75)}{9.8}}=3.91 s[/tex]

This means that the missile takes 3.91 s to reach the ground.

Now we study the horizontal motion: the missile moves with a constant horizontal velocity of

[tex]v_x = 45 m/s[/tex]

Therefore, the distance covered in a time t is

[tex]d=v_x t[/tex]

and by substituting t = 3.91 s, we find the horizontal range of the missile:

[tex]d=(45)(3.91)=176 m[/tex]

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The answer from the given option is The mean study time of students in class B is less than the students in class A.

Explanation:

There are three types of mean:

Here in class A,  

  Mean in class A = (2+5+7+6+4+3+8+7+4+5+7+6+3+5+4+2+4+6+3+5) / 20

                                = 4.8.

  Mean in class B = (3+7+6+4+3+2+4+5+6+7+2+2+2+3+4+5+2+2+5+6) / 20

                                = 4.

Hence mean study time of class B is less than the mean study time of class A.