Get Access to:
Get Access to:
Lost your password? Please enter your email address. You will receive a link and will create a new password via email.
Please briefly explain why you feel this question should be reported.
Please briefly explain why you feel this answer should be reported.
Please briefly explain why you feel this user should be reported.
What happens to the velocity of a gun when a bullet is fired?
When a bullet is fired from a gun, the velocity of the gun decreases.
When a bullet is fired from a gun, the velocity of the gun decreases.
See lessState the equation that describes the recoil of a gun.
The equation that describes the recoil of a gun is given by (m_{text{gun}}v_{text{gun}} = -m_{text{bullet}}v_{text{bullet}}), where (m_{text{gun}}) and (m_{text{bullet}}) are the masses of the gun and bullet respectively, and (v_{text{gun}}) and (v_{text{bullet}}) are their corresponding velocities.
The equation that describes the recoil of a gun is given by (m_{text{gun}}v_{text{gun}} = -m_{text{bullet}}v_{text{bullet}}), where (m_{text{gun}}) and (m_{text{bullet}}) are the masses of the gun and bullet respectively, and (v_{text{gun}}) and (v_{text{bullet}}) are their corresponding velocities.
See lessExplain the concept of recoil in the context of a gun.
Recoil in a gun refers to the backward motion experienced by the gun when a bullet is fired. According to the conservation of linear momentum, the momentum gained by the bullet in the forward direction is balanced by an equal and opposite momentum imparted to the gun in the backward direction. ThisRead more
Recoil in a gun refers to the backward motion experienced by the gun when a bullet is fired. According to the conservation of linear momentum, the momentum gained by the bullet in the forward direction is balanced by an equal and opposite momentum imparted to the gun in the backward direction. This causes the gun to recoil or move backward.
See lessDerive the equation for conservation of linear momentum.
Consider an isolated system consisting of two objects A and B. The initial momenta of A and B are (m_1u_1) and (m_2u_2) respectively. After a collision, the final momenta of A and B are (m_1v_1) and (m_2v_2) respectively. By applying the principle of conservation of linear momentum, (m_1u_1 + m_2u_2Read more
Consider an isolated system consisting of two objects A and B. The initial momenta of A and B are (m_1u_1) and (m_2u_2) respectively. After a collision, the final momenta of A and B are (m_1v_1) and (m_2v_2) respectively. By applying the principle of conservation of linear momentum, (m_1u_1 + m_2u_2 = m_1v_1 + m_2v_2)
See lessState the law of conservation of linear momentum.
The law of conservation of linear momentum states that the total linear momentum of an isolated system remains constant if no external forces act upon it.
The law of conservation of linear momentum states that the total linear momentum of an isolated system remains constant if no external forces act upon it.
See lessState the law of vector multiplication by a scalar.
The law of vector multiplication by a scalar states that when a vector \(\mathbf{A}\) is multiplied by a scalar \(k\), the result is a new vector that has the same direction as \(\mathbf{A}\) but a magnitude equal to the magnitude of \(\mathbf{A}\) multiplied by the scalar \(k\). This can be represeRead more
The law of vector multiplication by a scalar states that when a vector \(\mathbf{A}\) is multiplied by a scalar \(k\), the result is a new vector that has the same direction as \(\mathbf{A}\) but a magnitude equal to the magnitude of \(\mathbf{A}\) multiplied by the scalar \(k\). This can be represented as \(k\mathbf{A}\).
See lessDefine a position vector.
A position vector is a vector that represents the position of a point relative to a reference point or origin. It starts from the origin and points to the location of the point in space. Position vectors are often used to describe the position of objects in physics and can be expressed using CartesiRead more
A position vector is a vector that represents the position of a point relative to a reference point or origin. It starts from the origin and points to the location of the point in space. Position vectors are often used to describe the position of objects in physics and can be expressed using Cartesian coordinates or other coordinate systems.
See less