Help me with this homework please

if Circle one 100 g (least massive) and 200 g (most massive) have the same material then the least massive i.e 100g heat faster.

The amount of heat required to raise the temperature of an object is proportional to its mass. Specifically, the heat required is given by,

the formula

Q = m × c × ΔT

Where Q= is the amount of heat required

m= is the mass of the object

c= is the specific heat capacity of the material, and ΔT is the change in temperature.

If the two samples are made of the same material and have the same initial temperature, their specific heat capacities and the change in temperature will be the same.

Then, the amount of heat required to raise the temperature of the 100 g sample will be half that of the 200 g sample. This means that the 100 g sample will heat up more than the 200 g sample, as it requires less heat to raise its temperature.

Therefore, The sample with 100 g (least massive) will heat up faster than the sample with 200 g (most massive) if both samples are made of the same material and have the same initial temperature.

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Answer:

5 Newtons Up and 5 Newtons Right

Explanation:

Treat each force vector as a value and choose the upward and rightward directions to be positive. Downward and Leftward forces will be considered "negative". For the vertical net force we have a positive 10 N upwards and a negative 5 N downwards. The net force in the vertical will be 5 N upwards. In the horizontal we have 10 N to the right and 5 N to the left. The net force in the horizontal will be 5 N to the Right.

It is easier if you split the motion into horizontal and vertical components.

Answer:

78.4 m

Explanation:

To obtain the height of the cliff;

We can use the Relation to obtain the final velocity, v

v = u + at

a = acceleration due to gravity = 9.8m/s²

v = 0 + (9.8*4)

v = 0 + 39.2

v = 39.2 m/s

To obtain the Height, S

v² = u² + 2aS

39.2^2 = 0 + 2(9.8)S

39.2^2 = 0 + 19.6S

1536.64 = 19.6S

S = 1536.64 / 19.6

S = 78.4 m

Answer:

This situation happens because radius of Jupiter is 10 times greater than radius of the Earth.

Explanation:

According to Newton's Law of Gravitation, weight is directly proportional to the mass of the planet ([tex]M[/tex]), measured in kilograms, and inversely proportional to the square of the radius of the planet ([tex]R[/tex]), measured in meters. That is:

[tex]W \propto \frac{M}{R^{2}}[/tex]

[tex]W = \frac{k\cdot M}{R^{2}}[/tex](1)

Where [tex]k[/tex] is proportionality constant, measured in Newton-square meters per kilogram.

Then, we eliminate the proportionality constant by constructing this relationship:

[tex]\frac{W_{J}}{W_{E}} = \left(\frac{M_{J}}{M_{E}}\right)\cdot \left(\frac{R_{E}}{R_{J}} \right)^{2}[/tex]

Where subindices J and E mean "Jupiter" and "Earth", respectively. If we know that [tex]\frac{M_{J}}{M_{E}} = 300[/tex], [tex]W_{E} = 500\,N[/tex]and [tex]W_{J} = 1500\,N[/tex], then the ratio of radii is:

[tex]\frac{R_{E}}{R_{J}} = \sqrt{\left(\frac{W_{J}}{W_{E}} \right)\cdot \left(\frac{M_{E}}{M_{J}} \right)}[/tex]

[tex]\frac{R_{E}}{R_{J}} = \sqrt{3\cdot \left(\frac{1}{300} \right)}[/tex]

[tex]\frac{R_{E}}{R_{J}} = \frac{1}{10}[/tex]

Therefore, this situation happens because radius of Jupiter is 10 times greater than radius of the Earth.

Answer:

accelerating upward as it leaves the first floor.

Explanation:

When a person moves up in the elevator, the person's apparent weight is less then the actual weight. The person feels less weight than his or her actual weight. But just before the elevator starts moving the apparent weight of the person is equal to the normal or actual weight of the person before the movement. And after moving up in the elevator, the apparent weight is less than the actual weight, as one is moving against the force of gravity.

So in the context, the student exerts greatest force on the 1st floor as the elevator is accelerating upward when it leaves the first floor.

Answer:

1. 8437500 N

2. The force between the two charges is attractive.

Explanation:

1. Determination of the force between the two charges.

Charge 1 (q₁) = –2.0 C

Charge 2 (q₂) = 3.0 C

Distance apart (r) = 80 m

Electrical constant (K) = 9×10⁹ Nm²/C²

Force (F) =?

F = Kq₁q₂ / r²

F = 9×10⁹ × 2 × 3 / 80²

F = 5.4×10¹⁰ / 6400

F = 8437500 N

Thus, the force of attraction between the two charges is 8437500 N

2. From the question given, the charges are:

Charge 1 (q₁) = –2.0 C

Charge 2 (q₂) = 3.0 C

We understood that like charges repels while unlike charges attract. Since the two charges (i.e –2 C and 3 C) has opposite signs, it means they will attract each other.

Thus the force between them is attractive.

Answer:

I think the answer might be C

C. Carbon is not a product of a complete combustion reaction of a hydrocarbon.

Complete combustion is a process in which all carbon contained in a fuel or gas stream is converted to carbon dioxide.

The generic equation for the complete combustion of a hydrocarbon is:

CxHy + O₂ ⇒ CO₂ + H₂O + Energy

Let's consider which of the following is a product of a complete combustion reaction of a hydrocarbon.

A. energy. YES.

B. carbon dioxide. YES.

C. carbon. NO.

D. water. YES.

C. Carbon is not a product of a complete combustion reaction of a hydrocarbon.

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Answer:

The heat produced is 1568 J

Explanation:

The given parameters are;

The mass of the person, m = 80 kg

The height from which the person falls, h = 2 m

Mechanical Energy, ME = Potential Energy, PE + Kinetic Energy, KE

At the height, from where the person falls, the initial velocity of the person = 0 m/s

Therefore;

The initial kinetic energy, K.E. = 1/2·m·v² = 1/2 × 80 kg × (0 m/s)² = 0 J

From which we have;

The Mechanical Energy, M.E. = The initial Potential Energy, P.E. + 0 J

∴ The Mechanical Energy, M.E. = The initial Potential Energy, P.E.

The initial Potential Energy, P.E. = m·g·h

Where;

m = The mass of the person

g = The acceleration due to gravity ≈ 9.8 m/s²

∴ The initial Potential Energy, P.E. = 80 kg × 9.8 m/s² × 2 m = 1568 J

The Mechanical Energy, M.E. = The initial Potential Energy, P.E. = 1568 J

The whole mechanical energy is converted into heat energy, therefore, we have;

The Mechanical Energy, M.E. = The heat energy = 1568 J

The heat produced = The heat energy = 1568 J.

Answer:

The amount of kinetic energy lost during the collision is 60.75 J

Explanation:

The given parameters are;

The mass of the object moving in the +x direction, m₁ = 1.00 kg

The velocity of the object moving in the +x direction, v₁ = 10.0 m/s

The mass of the object moving in the -x direction, m₂ = 1.50 kg

The velocity of the object moving in the +x direction, v₂ = 5.00 m/s

The final velocity of the 1.00 kg mass after collision, v₃ = 4.00 m/s

The direction of motion of the 1.00 kg mass after collision = -x direction

The total initial kinetic energy of the system, [tex]K.E._{total \ initial}[/tex] = 1/2·m₁·v₁² + 1/2·m₂·v₂²

∴ [tex]K.E._{total \ initial}[/tex]  = 1/2×1.00×10² + 1/2×1.50×5² = 68.75 J

The final kinetic energy of the system, [tex]K.E._{final}[/tex]  = 1/2·m₁·v₃²

[tex]K.E._{final}[/tex] = 1/2×1.00×4² = 8 J

The amount of kinetic energy lost during the collision, [tex]\Delta K.E._{system}[/tex] is given as follows;

[tex]\Delta K.E._{system}[/tex] =  [tex]K.E._{final}[/tex] -[tex]K.E._{total \ initial}[/tex] = 8 J - 68.75 J = -60.75 J

The amount of kinetic energy lost during the collision = 60.75 J.

Explanation:

"The concentration of a solution is a measure of the amount of solute that has been dissolved in a given amount of solvent or solution. A concentrated solution is one that has a relatively large amount of dissolved solute. A dilute solution is one that has a relatively small amount of dissolved solute."

Answer:

When two objects interact, each one exerts a force on the other that can cause energy to be transferred to or from the object. For example, when energy is transferred to an Earth-object system as an object is raised, the gravitational field energy of the system increases.

Explanation:

Force and work are directly proportional to each other, while force and displacement are indirectly propotional. The equation showing the relationship is W= Fd. W represents work measured in joules; F represents force in newtons; and d represents distance in meters.

Answer:

Sound waves have a low speed of 330 m/s

Sound waves are mechanical waves

Electromagnetic waves have a greater speed of 3.0×10^8 m/s

Electromagnetic waves are due to disturbance of electromagnetic objects.

Answer:

D

Explanation:

The amount of energy present in the matter

Answer:

When it is accelerating or gaining velocity.

Explanation:

A car show positive acceleration when it is accelerating or gaining velocity. It would show negative acceleration if it was de-accelerating, slowing down or coming to a stop.

Answer:

When the velocity is increasing in the positive direction

Explanation:

Answer:

Both are chemical change as the new product is formed with new characteristics and can't be brought back to previous form.

Answer:

Shrijesh should be located at 4[m] from the fulcrum point.

Explanation:

We must keep in mind that the moment around the point of rotation (fulcrum) must be equal, so that the bar remains in balance.

The moment for shrijan is:

[tex]M=F*d\\M=600*2\\M_{shrijan}=1200[N*m][/tex]

So if the moment should be equal, the distance can be obtain from the same equation using the shrijesh's force or weight.

[tex]M_{shrijesh}=F*d_{2}\\1200=300*d_{2}\\d_{2}=4[m][/tex]

Answer: gravitational potential energy

Explanation:

Gravitational potential energy is refered to as the potential energy that an object has due to its gravitational field, which in turn is being turned into a kinetic energy when there is a fall of such objects.

Since Johanna is studying what happens to the energy as a ball rolls down a ramp, the form of energy here is the gravitational potential energy.

Answer:

the answer is A

Explanation:

gravitational potential energy

Answer:

D. Both are held together by gravitational forces

Explanation:

The common features in galaxies are;

The question is incomplete, however, The velocity of a vehicle is typically expressed relative to ground.

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Answer:

B. reflection

Explanation:

Have a good day! :)

The bouncing back of a ray of light, sound, or heat when the ray hits a surface that it does not penetrate is called a reflection, so option B is correct.

Reflection is the abrupt change in a wave's propagation direction when it encounters a boundary between two media. The approaching wave disturbance is still present in the same medium, at least in part. At plane borders, reflection happens regularly and follows a straightforward law.

Angles of incidence (between the oncoming wave's direction of motion and a perpendicular to the reflecting surface) are identical to angles between the reflected wave's direction of motion and a perpendicular (angle of reflection). Diffuse reflection occurs at uneven or irregular boundaries. The percentage of the wave's energy that is reflected by a surface material is known as its reflectivity.

Therefore, the bouncing back of a ray of light, sound, or heat when the ray hits a surface that it does not penetrate is called a reflection.

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Answer:

I think D is correct option

Answer:

c)both

Explanation:

The laws of reflection hold true for all the reflecting surfaces either spherical or plane. Therefore, the plane mirror, concave mirror and the convex mirror all will follow the laws of reflection.

Answer:

It holds for only plane mirrors

It states that the angle of incidence is equal to the angle of reflection.

This is only possible in plane mirrors only

Answer:

Explanation:

Acceleration roughly means “change in velocity.” If this change in velocity is consistently in one direction, the body will reach a point at which its velocity is zero.

Another consideration is when you drop a basketball onto the pavement. The ball falls, hits the ground, and comes back up. Because its direction of motion changed, you know that its velocity MUST have been 0 m/s at some point during the bounce.

This doesn't mean there was no acceleration at this point.

Answer:

yes,  majority of the weight will be supported by the front wheel and not by you.

Explanation:

Answer:

Inertia

Explanation:

The term for the tendency is inertia.

The inertia of a body is the tendency of the body to remain unmoved when at rest and the tendency to keep moving when in motion. In other words, it is the tendency of a body to remain in a state of rest or motion.

A static body will remain in a state of perpetual rest if no force acts on it and a moving body will keep moving in the same direction if no force acts on it. The force that needs to be overcome in order to change the state of the object is otherwise known as inertia force.

Answer:

The final volume of the gas is 2.25 L.

Explanation:

Given;

initial volume of the gas, V₁ = 1.5 L

initial pressure of the gas, P₁ = 3 atm

final pressure of the gas, P₂ = 2 atm

final volume of the gas, V₂ = ?

Apply Boyle's law to determine the final volume of the gas;

P₁V₁ = P₂V₂

V₂ = (P₁V₁) / P₂

V₂ = (3 x 1.5) / (2)

V₂ = 2.25 L

Therefore, the final volume of the gas is 2.25 L.

Answer:

12 grams

Explanation:

To calculate mass, we can use the following formula:

Mass = density × volume

Plug in the values

Mass = 1.5 × 8

Mass = 12

Therefore, the mass of the object is 12 grams.

I hope this helps!