Mathematical expression for second law of motion: Consider, an object of mass moving with initial velocity and it is accelerated to velocity in time, Therefore tue acceleration is a=v-u/t. By the application of a constant force throughout the time the u and v momentum of the object will be p1=mu and p2=mv respectively. Change in momentum Is directly proportional to final momentum-initial momentum " " " " p2-p1 " " " "mv-mu that is m(v-u) Rate of change of momentum is directly to proportional to m(v-u)/t From Newton's second law of motion, We know that(WKT),F is directly proportional to dp/dt F is directly proportional to m(v-u)/t F=km(v-u)/t WKT,a=v-u/t F=kma Where constant K=1 F=ma If m=1 kg; a=1m/s² F=1 N//ans.
Mathematical expression for second law of motion: Consider, an object of mass moving with initial velocity and it is accelerated to velocity in time, Therefore tue acceleration is a=v-u/t. By the application of a constant force throughout the time the u and v momentum of the object will be p1=mu and p2=mv respectively. Change in momentum Is directly proportional to final momentum-initial momentum " " " " p2-p1 " " " "mv-mu that is m(v-u) Rate of change of momentum is directly to proportional to m(v-u)/t From Newton's second law of motion, We know that(WKT),F is directly proportional to dp/dt F is directly proportional to m(v-u)/t F=km(v-u)/t WKT,a=v-u/t F=kma Where constant K=1 F=ma If m=1 kg; a=1m/s² F=1 N//ans.
Mathematical expression for second law of motion: Consider, an object of mass moving with initial velocity and it is accelerated to velocity in time, Therefore tue acceleration is a=v-u/t. By the application of a constant force throughout the time the u and v momentum of the object will be p1=mu and p2=mv respectively. Change in momentum Is directly proportional to final momentum-initial momentum " " " " p2-p1 " " " "mv-mu that is m(v-u) Rate of change of momentum is directly to proportional to m(v-u)/t From Newton's second law of motion, We know that(WKT),F is directly proportional to dp/dt F is directly proportional to m(v-u)/t F=km(v-u)/t WKT,a=v-u/t F=kma Where constant K=1 F=ma If m=1 kg; a=1m/s² F=1 N//ans.
Mathematical expression
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Mathematical expression for second law of motion:
Consider, an object of mass moving with initial velocity and it is accelerated to velocity in time, Therefore tue acceleration is a=v-u/t.
By the application of a constant force throughout the time the u and v momentum of the object will be p1=mu and p2=mv respectively.
Change in momentum Is directly proportional to final momentum-initial momentum
" " " " p2-p1
" " " "mv-mu that is m(v-u)
Rate of change of momentum is directly to proportional to m(v-u)/t
From Newton's second law of motion,
We know that(WKT),F is directly proportional to dp/dt
F is directly proportional to m(v-u)/t
F=km(v-u)/t
WKT,a=v-u/t
F=kma
Where constant K=1
F=ma
If m=1 kg; a=1m/s²
F=1 N//ans.
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Mathematical expression for second law of motion:
Consider, an object of mass moving with initial velocity and it is accelerated to velocity in time, Therefore tue acceleration is a=v-u/t.
By the application of a constant force throughout the time the u and v momentum of the object will be p1=mu and p2=mv respectively.
Change in momentum Is directly proportional to final momentum-initial momentum
" " " " p2-p1
" " " "mv-mu that is m(v-u)
Rate of change of momentum is directly to proportional to m(v-u)/t
From Newton's second law of motion,
We know that(WKT),F is directly proportional to dp/dt
F is directly proportional to m(v-u)/t
F=km(v-u)/t
WKT,a=v-u/t
F=kma
Where constant K=1
F=ma
If m=1 kg; a=1m/s²
F=1 N//ans.
Mathematical expression for second law of motion:
Consider, an object of mass moving with initial velocity and it is accelerated to velocity in time, Therefore tue acceleration is a=v-u/t.
By the application of a constant force throughout the time the u and v momentum of the object will be p1=mu and p2=mv respectively.
Change in momentum Is directly proportional to final momentum-initial momentum
" " " " p2-p1
" " " "mv-mu that is m(v-u)
Rate of change of momentum is directly to proportional to m(v-u)/t
From Newton's second law of motion,
We know that(WKT),F is directly proportional to dp/dt
F is directly proportional to m(v-u)/t
F=km(v-u)/t
WKT,a=v-u/t
F=kma
Where constant K=1
F=ma
If m=1 kg; a=1m/s²
F=1 N//ans.