Torque T=Nmsin x, thus Force N=T/msin x.
If sin x is zero Torque is zero and Force is zero.
Generally, NM (Newton Meter) is a force times the length of the arm. Bar is Pressure (force per unit of area). The conversion is not possible to calculate because of the difference in extensions (NM or N/m²). However, in engine design the load of the engine can be given in bar (cylinder pressure) but converted into torque (N-m) by the following conversion: Cylinder Pressure (bar) = Torque (N-m) * nrev * 2 * pi / Cylinder displacement (cubic meters) / 100,000 where: nrev = number of revolutions per cycle (2 for a 4-stroke engine, 1 for a 2-stroke)
Turning moment (Nm) = Force (N) x Perpendicular Distance from the pivot to the line of action of the force (m)
E=mc^2 has units Newton meter (Nm). E=Nm and mc^2=(N/a)c^2 Nm= N(m/t)^2/m/t^2 = Nm. Thus Energy is unit equivalent to mc^2 and both are units of Nm.
#include<stdio.h> #include<conio.h> void main() { FILE *fp; char nm[50]; int a,b,n,i; printf("\nInput file name:"); gets(nm); printf("\nEnter no. of employees:"); scanf("%d",&n); fp=fopen(nm,"w"); printf("Input Invendory Data:\n"); printf("Enter name age basic salary\n"); for(i=1;i<=n;i++) { scanf("%s %d %d",nm,&a,&b); fprintf(fp,"%s %d %d",nm,&a,&b); } fclose(fp); getch(); } If the ans helps you,plz increase the trust point.
In case of HARMONIC OSCILLATOR the relation b/n FORCE AND DISPLACEMENT is LINEAR but in the case of ANHARMONIC OSCILLATOR relation b/n force and displacement is not linear.Hence this non-linearity arises the fact that the spring is not capable of exerting a restoring force that is proportional to the displacement.
Generally, NM (Newton Meter) is a force times the length of the arm. Bar is Pressure (force per unit of area). The conversion is not possible to calculate because of the difference in extensions (NM or N/m²). However, in engine design the load of the engine can be given in bar (cylinder pressure) but converted into torque (N-m) by the following conversion: Cylinder Pressure (bar) = Torque (N-m) * nrev * 2 * pi / Cylinder displacement (cubic meters) / 100,000 where: nrev = number of revolutions per cycle (2 for a 4-stroke engine, 1 for a 2-stroke)
T=f*d*sin(of the angle) torque= 8*.5*sin(45) =2.828 NM
3681W. Power = 2*Pi*T*n where T = torque (Nm) and n=speed (revs/sec)
90 x 0.22 Nm
They are completely unrelated. Don't get confused by the fact that the units look similar. Work units may be force (N) times distance (m); so a Nm is a work unit. Torque units may be distance (m) times force (N); so mN is a torque unit. Look similar, but they describe different things.
MdaN *3.75*1.36=N/M
torque = force * lever length torque = 15 * 55 torque = 825 n-cms
90 / 1200 meter, or 0.075 of a meter.
Torque is basically the equivalent of a force, for rotational movement. It always involves a force, but torque also depends on how far you push or pull, from the axis of rotation. A torque has units of force x distance (for example, in SI units, newton x meters). Thus, a force of 100 N at 1 meter from the axis of rotation (100 N-m) has the same effect (the same torque) as a force of 50 N at 2 meter (also 100 N-m).
Turning moment (Nm) = Force (N) x Perpendicular Distance from the pivot to the line of action of the force (m)
225 n
Force in the metric System is the Newton N, derived form the energy measure the Joule J=Nm, the Newton Meter. J=Nm= Force distance = 3/4 foot # N10f/3=3/4f# gives Newton N=9/40# = .225 #