Vocabulary Speed- rate of change of position. **Velocity**-an object’s speed and direction of motion **Momentum**-the product of an object’s mass and **velocity**. Web. Web. Web. Web. Inertia is the tendency of objects to resist changes in motion. Inertia is basically the word for Newton's First Law. Everything "has" inertia that has mass, and the degree to which inertia effects motion is proportional to mass. Inertia is basically the concept that mass affects motion. **Momentum** is mass times **velocity**.. Find answers to questions asked by students like you. Show more Q&A add. Q: x 10^5 J x 10^5 J x 10^5. A: Given: Speed is 80 km/h v=80×103m/3600 sv=2009m/s Mass of truck is 2000 kg. Q: The tension at which a fishing line snaps is commonly called the line's "strength." What minimum. A: We must discover the strength required to build a line. Mar 26, 2021 · **Momentum** is directly proportional to the object’s mass and also its **velocity**. Thus the greater an object’s mass or the greater its **velocity**, the greater its **momentum**. **Momentum** p is a vector having the same direction as the **velocity** v. The SI unit for **momentum** is kg · m/s. Are mass and **velocity** inversely related?. Web. What is the **difference** **between** **velocity** **and** **momentum** How are **velocity** **and** **momentum** similar? **Momentum** **and** **velocity** are both properties of objects that are in motion. They are very closely related, because the higher the **velocity** of an object, the higher its **momentum**. An example of an object with a lot of **momentum** is a fast-moving truck. The **difference** **between** momentumand impulse is that **momentum** is the forcethat keeps something moving while the impulse is the force that causes something to move. In physics, **momentum** is defined as the product of mass and **velocity**, **and** impulse is defined as the product of force and time. **Momentum** **and** impulse are two terms that are often confused. Web. Jun 24, 2019 · 3. The formula you have specified L → = r → × m v → is the definition of angular **momentum** of a point-like particle which respect to a point P. In this case of course angular **momentum** and **angular velocity** have the same direction. When dealing with rigid bodies (assemblies of many point-like particles), the correct full angular **momentum** is .... Web. Mar 26, 2021 · **Momentum** is directly proportional to the object’s mass and also its **velocity**. Thus the greater an object’s mass or the greater its **velocity**, the greater its **momentum**. **Momentum** p is a vector having the same direction as the **velocity** v. The SI unit for **momentum** is kg · m/s. Are mass and **velocity** inversely related?. Oct 31, 2019 · The key **difference** **between** acceleration **and momentum** is that acceleration refers to the rate of change in **velocity** of a moving object, whereas the **momentum** of an object is the product of the mass of the object and its **velocity**.. So, the **momentum** is equal to the **velocity** multiplied by the mass. So, the direction of the **momentum** and the **velocity** is the same. As we know the conservation law of **momentum** assigns that the total **momentum** of the system is equal to zero. So, the **momentum** is a conserved quantity while the **velocity** isn't conserved.. What is the **difference** **between** **momentum** and **velocity**? • **Momentum** is dependent on mass, and **velocity** is independent of mass. • The **momentum** is conserved in a closed system, but the **velocity** is not conserved. • An external force is always required to change the **velocity**, but **momentum** can be changed by changing mass.. Web. Force exists even when the object is stationary. The **momentum** remains zero when the object is stationary. Force can be from contact or no contact **between** objects. **Momentum** happens when force is unbalanced and acts on the body. Force= mass x acceleration. **Momentum**= mass x **velocity**. Web. Web. Answer (1 of 5):** velocity is the rate of change of position of a body while momentum is mass times velocity of the body.** Impacts of both the quantities on a body are completely different. However, the directions of both of them is always same.. Web. As nouns the **difference** **between** **velocity** **and** **momentum** is that **velocity** is (physics) a vector quantity that denotes the rate of change of position with respect to time, or a speed with the directional component while **momentum** is (physics) (of a body in motion) the product of its mass and **velocity**. Web. View the full answer. Transcribed image text: What is the **difference** **between** **momentum** **and** impulse? **Momentum** is the sum of mass and **velocity**. Impulse is the change in **momentum**. **Momentum** is the sum of mass and **velocity**. Impulse is the rate of change in **momentum**. **Momentum** is the product of maw and **velocity**. Impulse is the change in **momentum**. Web. May 25, 2022 · **Velocity** measures the speed of an object in a certain direction, while acceleration measures the change in **velocity** over time. In addition, acceleration can be either positive or negative, depending on whether the object’s speed is increasing or decreasing. Understanding these **differences** is important for physics students and for anyone who .... In Newtonian mechanics, linear **momentum**, translational **momentum**, or simply **momentum** is the product of the mass and **velocity** of an object. It is a vector quantity, possessing a magnitude and a direction. If m is an object's mass and v is its **velocity** (also a vector quantity), then the object's **momentum** p is : In the International System of Units .... The main **difference** **between** **Velocity** **and** Acceleration is that they have various implications. The term **velocity** is utilized to depict the speed of an object in a provided guidance. Meter/second (m/s) is the unit used to quantify it. Then again, when an item changes its **velocity** concerning time, it is Acceleration.

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Dec 16, 2015 · The misunderstandings and misconceptions **between** **volatility** **and momentum** can lead to expensive trading mistakes and can even result in totally flawed chart and market analysis and trading decisions. **Volatility** **and momentum** are two fundamentally different things and we will explore the **differences** **between** the two concepts, how to measure .... What is the **difference** **between** **velocity** **and** **momentum**? Wiki User. ∙ 2014-02-17 16:23:57. Study now. See answer (1) Best Answer. Copy. **Momentum** is the product of (**velocity**) x (mass). Wiki User. Web. Rolling and bowling, Bill shows us some Great Moments in **momentum**. It's the multiplied product of speed and mass, y'know. Well, watch. A: Meaning of **Momentum**: **Momentum** implies a quantity of motion in simple way. It depends on mass **and** Q: 27. Which among the following situations results to the greatest **momentum**? Group of answer choices A A: **Momentum** = mass × **velocity** P= mv Q: Choose the best answer: An object that is speeding up would have O a a negative **momentum** b zero. In SI units, if the mass is in kilograms and the **velocity** is in meters per second then the **momentum** is in kilogram meters per second (kg⋅m/s). In cgs units, if the mass is in grams and the **velocity** in centimeters per second, then the **momentum** is in gram centimeters per second (g⋅cm/s). Being a vector, **momentum** has magnitude and direction..

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What is the **difference** **between** force and **momentum**? **Momentum** is the product of mass and **velocity** but force is the product of mass and acceleration. Although acceleration measures change in **velocity** with time, acceleration cannot become **velocity** likewise **momentum** cannot become force.

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Dec 16, 2015 · The misunderstandings and misconceptions **between** **volatility** **and momentum** can lead to expensive trading mistakes and can even result in totally flawed chart and market analysis and trading decisions. **Volatility** **and momentum** are two fundamentally different things and we will explore the **differences** **between** the two concepts, how to measure .... Web. Web. What is the **difference** **between** **velocity** **and** **momentum**? Wiki User. ∙ 2014-02-17 16:23:57. Study now. See answer (1) Best Answer. Copy. **Momentum** is the product of (**velocity**) x (mass). Wiki User. The **momentum** of a particle is given by the equation, P = mv, where P is the **momentum** of the particle, m is the mass of the particle, and v is the **velocity** of the particle. The kinetic energy of a particle is given by the equation, KE = (1/2) mv2. If we substitute the equation for **momentum** into this equation we get, KE = (1/2) P2 / m.

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Web. Web. Web. One of the most obvious **differences** **between** kinetic energy and **momentum** is that kinetic energy depends quadratically on **velocity** (it increases as v 2 ), while **momentum** depends linearly on **velocity** (it increases as just v). This means that kinetic energy actually increases way faster with **velocity** as **momentum** does.

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Web. So, the **momentum** is equal to the **velocity** multiplied by the mass. So, the direction of the **momentum** and the **velocity** is the same. As we know the conservation law of **momentum** assigns that the total **momentum** of the system is equal to zero. So, the **momentum** is a conserved quantity while the **velocity** isn't conserved.. Web. Web. Web. It is given by the product of the **velocity** **and** mass of the object. 1. When force is applied to the object for a short duration then it is known as an impulse. 2. In a collision, the change in **momentum** of an object is equal to the impulse experienced by an object. 2. Impulse is calculated as the integral of a force over a period of time for.

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Web. Web. F is the **momentum** P’s derivative with respect to time t. When the **velocity** varies, the **momentum** changes, but the force changes when the acceleration changes. Even if the **velocity** changes, the force remains constant as long as the acceleration remains constant. The **difference** **between** Force **and Momentum**. Web. Oct 31, 2019 · The key **difference** **between** acceleration **and momentum** is that acceleration refers to the rate of change in **velocity** of a moving object, whereas the **momentum** of an object is the product of the mass of the object and its **velocity**.. Web.

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So, the **momentum** is equal to the **velocity** multiplied by the mass. So, the direction of the **momentum** **and** the **velocity** is the same. As we know the conservation law of **momentum** assigns that the total **momentum** of the system is equal to zero. So, the **momentum** is a conserved quantity while the **velocity** isn't conserved. Web. Web. Web.

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Jun 24, 2019 · 3. The formula you have specified L → = r → × m v → is the definition of angular **momentum** of a point-like particle which respect to a point P. In this case of course angular **momentum** and **angular velocity** have the same direction. When dealing with rigid bodies (assemblies of many point-like particles), the correct full angular **momentum** is .... Web. Web. Web. So, the **momentum** is equal to the **velocity** multiplied by the mass. So, the direction of the **momentum** **and** the **velocity** is the same. As we know the conservation law of **momentum** assigns that the total **momentum** of the system is equal to zero. So, the **momentum** is a conserved quantity while the **velocity** isn't conserved. Jun 24, 2019 · 3. The formula you have specified L → = r → × m v → is the definition of angular **momentum** of a point-like particle which respect to a point P. In this case of course angular **momentum** and **angular velocity** have the same direction. When dealing with rigid bodies (assemblies of many point-like particles), the correct full angular **momentum** is .... Web. Aug 13, 2009 · The **difference between velocity and momentum** is that **momentum** also depends on the mass of the object, as well as its **velocity**.**Momentum** of an object is (mass) multiplied by (**velocity**).. Dec 16, 2015 · The misunderstandings and misconceptions **between** **volatility** **and momentum** can lead to expensive trading mistakes and can even result in totally flawed chart and market analysis and trading decisions. **Volatility** **and momentum** are two fundamentally different things and we will explore the **differences** **between** the two concepts, how to measure .... **Momentum** is a very important property of a moving object. The **momentum** of an object is equal to the mass of the object multiplied by the **velocity** of the object. Since mass is a scalar, the **momentum** is a vector, which has the same direction as the **velocity**. One of the most fundamental laws regarding **momentum** is Newton’s second law of motion.. **Velocity** is the same as speed but in a given direction. The runner had a **velocity** of 10 metres per second due North. Acceleration is the change in **velocity** over the time the change occurs. The runner accelerated from 0 to 10m/s in 5 seconds, their acceleration was 2m/s^2. **Momentum** is the product of the mass of an object and it's **velocity**. Web. Web.

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Web. Web. In Newtonian mechanics, linear **momentum**, translational **momentum**, or simply **momentum** (pl. momenta) is the product of the mass and **velocity** of an object. ━ Oxford Dictionary **Velocity** Noun (economics) The number of times that an average unit of currency is spent during a specific period of time. ━ WordNet 3.0 **Velocity** Noun (in general use) speed. Web. In context|physics|lang=en terms the difference between velocity and momentum is that** velocity is (physics) a vector quantity that denotes the rate of change of position with respect to time, or a speed with the directional component while momentum is (physics) (of a body in motion) the product of its mass and velocity.** As nouns the difference between velocity and momentum.

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The **difference** **between** momentumand impulse is that **momentum** is the forcethat keeps something moving while the impulse is the force that causes something to move. In physics, **momentum** is defined as the product of mass and **velocity**, **and** impulse is defined as the product of force and time. **Momentum** **and** impulse are two terms that are often confused. Jun 24, 2019 · 3. The formula you have specified L → = r → × m v → is the definition of angular **momentum** of a point-like particle which respect to a point P. In this case of course angular **momentum** and **angular velocity** have the same direction. When dealing with rigid bodies (assemblies of many point-like particles), the correct full angular **momentum** is ....

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Mar 26, 2021 · It is the product of mass times **velocity** . Does **momentum** and **velocity** have the same direction? **Momentum** is in the same direction as **velocity**. Scientists calculate **momentum** by multiplying the mass of the object by the **velocity** of the object. What is the **difference** **between** torque **and momentum**? The SI unit of torque is a Newton-meter. **Momentum** is .... Web. In context|physics|lang=en terms the difference between velocity and momentum is that** velocity is (physics) a vector quantity that denotes the rate of change of position with respect to time, or a speed with the directional component while momentum is (physics) (of a body in motion) the product of its mass and velocity.** As nouns the difference between velocity and momentum.

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**Momentum** is a very important property of a moving object. The **momentum** of an object is equal to the mass of the object multiplied by the **velocity** of the object. Since mass is a scalar, the **momentum** is a vector, which has the same direction as the **velocity**. One of the most fundamental laws regarding **momentum** is Newton’s second law of motion.. Dec 16, 2015 · The misunderstandings and misconceptions **between** **volatility** **and momentum** can lead to expensive trading mistakes and can even result in totally flawed chart and market analysis and trading decisions. **Volatility** **and momentum** are two fundamentally different things and we will explore the **differences** **between** the two concepts, how to measure .... Generally, **momentum** implies a tendency to continue on course—to move in the same direction—and is associated with great mass and speed. **Momentum**, like energy, is important because it is conserved.. In context|physics|lang=en terms the difference between velocity and momentum is that** velocity is (physics) a vector quantity that denotes the rate of change of position with respect to time, or a speed with the directional component while momentum is (physics) (of a body in motion) the product of its mass and velocity.** As nouns the difference between velocity and momentum. What is the **difference** **between** **velocity** **and** **momentum**? **Momentum** is the product of (**velocity**) x (mass). **Momentum** has direction because what has direction?. Web. Web. What is the **difference between velocity and momentum**? How are **velocity** **and momentum** similar? Answer. Upgrade to View Answer. Related Courses. No Related Courses..

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Rolling and bowling, Bill shows us some Great Moments in **momentum**. It's the multiplied product of speed and mass, y'know. Well, watch..

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Web. Mar 26, 2021 · It is the product of mass times **velocity** . Does **momentum** and **velocity** have the same direction? **Momentum** is in the same direction as **velocity**. Scientists calculate **momentum** by multiplying the mass of the object by the **velocity** of the object. What is the **difference** **between** torque **and momentum**? The SI unit of torque is a Newton-meter. **Momentum** is .... Vocabulary Speed- rate of change of position. **Velocity**-an object's speed and direction of motion **Momentum**-the product of an object's mass and **velocity**. Web. So, the **momentum** is equal to the **velocity** multiplied by the mass. So, the direction of the **momentum** **and** the **velocity** is the same. As we know the conservation law of **momentum** assigns that the total **momentum** of the system is equal to zero. So, the **momentum** is a conserved quantity while the **velocity** isn't conserved. When the **velocity** varies, the **momentum** changes, but when the acceleration changes, the force changes. Even if the **velocity** changes, the force remains constant as long as the acceleration remains constant. The quantities of force and **momentum** are both vectors. A vector quantity is defined as a quantity that has both a magnitude and a direction. Web. **Momentum** is a very important property of a moving object. The **momentum** of an object is equal to the mass of the object multiplied by the **velocity** of the object. Since mass is a scalar, the **momentum** is a vector, which has the same direction as the **velocity**. One of the most fundamental laws regarding **momentum** is Newton’s second law of motion.. The **momentum** of a particle is given by the equation, P = mv, where P is the **momentum** of the particle, m is the mass of the particle, and v is the **velocity** of the particle. The kinetic energy of a particle is given by the equation, KE = (1/2) mv2. If we substitute the equation for **momentum** into this equation we get, KE = (1/2) P2 / m. Web. What is the **difference** **between** **velocity** **and** **momentum**? **Momentum** is directly proportional to the object's mass and also its **velocity**. Thus the greater an object's mass or the greater its **velocity**, the greater its **momentum**. **Momentum** p is a vector having the same direction as the **velocity** v. The SI unit for **momentum** is kg · m/s. It's not the **velocity**. It's the magnitude of **velocity** Or we can say this is the speed. It's going to be equal to omega times r So the speed is equal to the angular **velocity** times r I guess we could say the magnitude of the angular **velocity** times the radius I don't want you to be confused. I am not saying that this is a vector quantity If this. In Newtonian mechanics, **momentum** (more specifically linear **momentum** or translational **momentum**) is the product of the mass and **velocity** of an object. It is a vector quantity, possessing a magnitude and a direction. If m is an object's mass and v is its **velocity** (also a vector quantity), then the object's **momentum** p is : =.. In the International System of Units (SI), the unit of measurement of. Web.

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**Velocity** is a physical quantity of a body. The instantaneous **velocity** can be given as the instantaneous speed of the object with the direction the object is moving at that moment. **Momentum** is a very important property of a moving object. The **momentum** of an object is equal to the mass of the object multiplied by the **velocity** of the object. Feb 17, 2014 · What is the **difference between velocity and momentum**? Wiki User. ∙ 2014-02-17 16:23:57. Study now. See answer (1) Best Answer. Copy. **Momentum** is the product of (**velocity**) x (mass). Wiki User.. What is the **difference** **between** **momentum** **and** **velocity**? • **Momentum** is dependent on mass, and **velocity** is independent of mass. • The **momentum** is conserved in a closed system, but the **velocity** is not conserved. • An external force is always required to change the **velocity**, but **momentum** can be changed by changing mass. About the Author: Admin. Web. It is given by the product of the **velocity** **and** mass of the object. 1. When force is applied to the object for a short duration then it is known as an impulse. 2. In a collision, the change in **momentum** of an object is equal to the impulse experienced by an object. 2. Impulse is calculated as the integral of a force over a period of time for. So, the **momentum** is equal to the **velocity** multiplied by the mass. So, the direction of the **momentum** **and** the **velocity** is the same. As we know the conservation law of **momentum** assigns that the total **momentum** of the system is equal to zero. So, the **momentum** is a conserved quantity while the **velocity** isn't conserved. Web. In context|physics|lang=en terms the difference between velocity and momentum is that**momentum** theory of an actuator disc with the blade element theory. To this purpose, the blade is discretised by a number of blade elements where the local loads are calculated by interpolating aerofoil polars based on the inflow conditions. ... For comparison, the **difference** in induced **velocity** **between** lifting line. Some people think **momentum** **and** kinetic energy are the same. They are both related to an object's **velocity** (or speed) and mass, but **momentum** is a vector quantity that describes the amount of mass in motion. Kinetic energy is a measure of an object's energy from motion, and is a scalar. Sometimes people think **momentum** is the same as force. As nouns the **difference** **between** **velocity** **and** **momentum** is that **velocity** is (physics) a vector quantity that denotes the rate of change of position with respect to time, or a speed with the directional component while **momentum** is (physics) (of a body in motion) the product of its mass and **velocity**.

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**velocity** is the rate of change of position of a body while **momentum** is mass times **velocity** of the body. Impacts of both the quantities on a body are completely different. However, the directions of both of them is always same. So, to change the **velocity** of a body, we always need a force but to change the **momentum**, we can vary the mass also. Jun 24, 2019 · 3. The formula you have specified L → = r → × m v → is the definition of angular **momentum** of a point-like particle which respect to a point P. In this case of course angular **momentum** and **angular velocity** have the same direction. When dealing with rigid bodies (assemblies of many point-like particles), the correct full angular **momentum** is .... Web. Vocabulary Speed- rate of change of position. **Velocity**-an object's speed and direction of motion **Momentum**-the product of an object's mass and **velocity**. Is **velocity** **and** **momentum** same? In terms of an equation, the **momentum** of an object is equal to the mass of the object times the **velocity** of the object. where m is the mass and v is the **velocity**. The equation illustrates that **momentum** is directly proportional to an object's mass and directly proportional to the object's **velocity**. Web.

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Web. In SI units, if the mass is in kilograms and the **velocity** is in meters per second then the **momentum** is in kilogram meters per second (kg⋅m/s). In cgs units, if the mass is in grams and the **velocity** in centimeters per second, then the **momentum** is in gram centimeters per second (g⋅cm/s). Being a vector, **momentum** has magnitude and direction.. What is the **difference** **between** **momentum** and **velocity**? • **Momentum** is dependent on mass, and **velocity** is independent of mass. • The **momentum** is conserved in a closed system, but the **velocity** is not conserved. • An external force is always required to change the **velocity**, but **momentum** can be changed by changing mass..

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Web. Web. Answer: Gravity is the force of attraction **between** two bodies due to their masses. Gravity is a force vector with the direction of the force of each mass pointing toward the other mass. **Momentum** (p) is a conserved quatity in physics that is p=(mass*velocity). **Momentum** is a vector since the veloc. **Momentum** vs **Velocity**. (physics) (of a body in motion) The tendency of a body to maintain its inertial motion; the product of its mass and **velocity**. A property of an activity or course of events, viewed as analogous to forward motion or to physical **momentum** (def. 1), such that the activity is believed to be able to continue moving forward ....

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A) **momentum**. B) the change in **momentum**. C) the force multiplied by the distance the force acts. D) **velocity** multiplied by time B) the change in **momentum**. A bullet is fired from a gun. The speed of the bullet will be about the same as the speed of the recoiling gun A) because **momentum** is conserved. B) because **velocity** is conserved. Web.

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Oct 31, 2019 · The key **difference** **between** acceleration **and momentum** is that acceleration refers to the rate of change in **velocity** of a moving object, whereas the **momentum** of an object is the product of the mass of the object and its **velocity**.. Web. **Momentum** is a very important property of a moving object. The **momentum** of an object is equal to the mass of the object multiplied by the **velocity** of the object. Since mass is a scalar, the **momentum** is a vector, which has the same direction as the **velocity**. One of the most fundamental laws regarding **momentum** is Newton’s second law of motion.. Web. **Momentum** vs **Velocity**. (physics) (of a body in motion) The tendency of a body to maintain its inertial motion; the product of its mass and **velocity**. A property of an activity or course of events, viewed as analogous to forward motion or to physical **momentum** (def. 1), such that the activity is believed to be able to continue moving forward ....

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**velocity** is the rate of change of position of a body while **momentum** is mass times **velocity** of the body. Impacts of both the quantities on a body are completely different. However, the directions of both of them is always same. So, to change the **velocity** of a body, we always need a force but to change the **momentum**, we can vary the mass also.

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Some people think **momentum** **and** kinetic energy are the same. They are both related to an object's **velocity** (or speed) and mass, but **momentum** is a vector quantity that describes the amount of mass in motion. Kinetic energy is a measure of an object's energy from motion, and is a scalar. How can you compare the motion of two objects?. Web. Web. . The **difference** **between** **velocity** **and** **momentum** is that **momentum** also depends on the mass of the object, as well as its **velocity**. **Momentum** of an object is (mass) multiplied by (**velocity**). Web.

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**differences**

**between**these two concepts.

**Velocity**measures the speed of an object in a certain direction, while acceleration measures the change in

**velocity**over time. In addition, acceleration can be either positive or negative, depending on whether the object's speed is increasing or decreasing.

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