数学因式分解100道 要100道数学因式分解,越简单越好
\u521d\u4e8c\u6570\u5b66\u56e0\u5f0f\u5206\u89e3\u9898100\u90531.\u628a\u4e0b\u5217\u5404\u5f0f\u5206\u89e3\u56e0\u5f0f
\uff081\uff0912a3b2\uff0d9a2b+3ab;
\uff082\uff09a\uff08x+y\uff09\uff0d\uff08a\uff0db\uff09\uff08x+y\uff09;
\uff083\uff09121x2\uff0d144y2;
\uff084\uff094\uff08a\uff0db\uff092\uff0d\uff08x\uff0dy\uff092;
\uff085\uff09\uff08x\uff0d2\uff092+10\uff08x\uff0d2\uff09+25;
\uff086\uff09a3\uff08x+y\uff092\uff0d4a3c2.
2.\u7528\u7b80\u4fbf\u65b9\u6cd5\u8ba1\u7b97
\uff081\uff096.42\uff0d3.62;
\uff082\uff0921042\uff0d1042
\uff083\uff091.42\u00d79\uff0d2.32\u00d736
\u7b2c\u4e8c\u7ae0 \u5206\u89e3\u56e0\u5f0f\u7efc\u5408\u7ec3\u4e60
\u4e00\u3001\u9009\u62e9\u9898
1.\u4e0b\u5217\u5404\u5f0f\u4e2d\u4ece\u5de6\u5230\u53f3\u7684\u53d8\u5f62\uff0c\u662f\u56e0\u5f0f\u5206\u89e3\u7684\u662f\uff08 \uff09
(A)(a+3)(a-3)=a2-9 (B)x2+x-5=(x-2)(x+3)+1
(C)a2b+ab2=ab(a+b) (D)x2+1=x(x+ )
2.\u4e0b\u5217\u5404\u5f0f\u7684\u56e0\u5f0f\u5206\u89e3\u4e2d\u6b63\u786e\u7684\u662f\uff08 \uff09
(A)-a2+ab-ac= -a(a+b-c) (B)9xyz-6x2y2=3xyz(3-2xy)
(C)3a2x-6bx+3x=3x(a2-2b) (D) xy2+ x2y= xy(x+y)
3.\u628a\u591a\u9879\u5f0fm2(a-2)+m(2-a)\u5206\u89e3\u56e0\u5f0f\u7b49\u4e8e\uff08 \uff09
(A)(a-2)(m2+m) (B)(a-2)(m2-m) (C)m(a-2)(m-1) (D)m(a-2)(m+1)
4.\u4e0b\u5217\u591a\u9879\u5f0f\u80fd\u5206\u89e3\u56e0\u5f0f\u7684\u662f\uff08 \uff09
(A)x2-y (B)x2+1 (C)x2+y+y2 (D)x2-4x+4
5.\u4e0b\u5217\u591a\u9879\u5f0f\u4e2d\uff0c\u4e0d\u80fd\u7528\u5b8c\u5168\u5e73\u65b9\u516c\u5f0f\u5206\u89e3\u56e0\u5f0f\u7684\u662f\uff08 \uff09
(A) (B) (C) (D)
6.\u591a\u9879\u5f0f4x2+1\u52a0\u4e0a\u4e00\u4e2a\u5355\u9879\u5f0f\u540e\uff0c\u4f7f\u5b83\u80fd\u6210\u4e3a\u4e00\u4e2a\u6574\u5f0f\u7684\u5b8c\u5168\u5e73\u65b9\uff0c\u5219\u52a0\u4e0a\u7684\u5355\u9879\u5f0f\u4e0d\u53ef\u4ee5\u662f\uff08 \uff09
(A)4x (B)-4x (C)4x4 (D)-4x4
7.\u4e0b\u5217\u5206\u89e3\u56e0\u5f0f\u9519\u8bef\u7684\u662f\uff08 \uff09
(A)15a2+5a=5a(3a+1) (B)-x2-y2= -(x2-y2)= -(x+y)(x-y)
(C)k(x+y)+x+y=(k+1)(x+y) (D)a3-2a2+a=a(a-1)2
8.\u4e0b\u5217\u591a\u9879\u5f0f\u4e2d\u4e0d\u80fd\u7528\u5e73\u65b9\u5dee\u516c\u5f0f\u5206\u89e3\u7684\u662f\uff08 \uff09
(A)-a2+b2 (B)-x2-y2 (C)49x2y2-z2 (D)16m4-25n2p2
9.\u4e0b\u5217\u591a\u9879\u5f0f\uff1a\u246016x5-x\uff1b\u2461(x-1)2-4(x-1)+4\uff1b\u2462(x+1)4-4x(x+1)+4x2\uff1b\u2463-4x2-1+4x\uff0c\u5206\u89e3\u56e0\u5f0f\u540e\uff0c\u7ed3\u679c\u542b\u6709\u76f8\u540c\u56e0\u5f0f\u7684\u662f\uff08 \uff09
(A)\u2460\u2461 (B)\u2461\u2463 (C)\u2462\u2463 (D)\u2461\u2462
10.\u4e24\u4e2a\u8fde\u7eed\u7684\u5947\u6570\u7684\u5e73\u65b9\u5dee\u603b\u53ef\u4ee5\u88ab k\u6574\u9664\uff0c\u5219k\u7b49\u4e8e\uff08 \uff09
(A)4 (B)8 (C)4\u6216-4 (D)8\u7684\u500d\u6570
\u4e8c\u3001\u586b\u7a7a\u9898
11.\u5206\u89e3\u56e0\u5f0f\uff1am3-4m= .
12.\u5df2\u77e5x+y=6\uff0cxy=4\uff0c\u5219x2y+xy2\u7684\u503c\u4e3a .
13.\u5c06xn-yn\u5206\u89e3\u56e0\u5f0f\u7684\u7ed3\u679c\u4e3a(x2+y2)(x+y)(x-y)\uff0c\u5219n\u7684\u503c\u4e3a .
14.\u82e5ax2+24x+b=(mx-3)2\uff0c\u5219a= \uff0cb= \uff0cm= . (\u7b2c15\u9898\u56fe)
15.\u89c2\u5bdf\u56fe\u5f62\uff0c\u6839\u636e\u56fe\u5f62\u9762\u79ef\u7684\u5173\u7cfb\uff0c\u4e0d\u9700\u8981\u8fde\u5176\u4ed6\u7684\u7ebf\uff0c\u4fbf\u53ef\u4ee5\u5f97\u5230\u4e00\u4e2a\u7528\u6765\u5206\u89e3\u56e0\u5f0f\u7684\u516c\u5f0f\uff0c\u8fd9\u4e2a\u516c\u5f0f\u662f .
\u4e09\u3001(\u6bcf\u5c0f\u98986\u5206\uff0c\u517124\u5206)
16.\u5206\u89e3\u56e0\u5f0f\uff1a(1)-4x3+16x2-26x (2) a2(x-2a)2- a(2a-x)3
\uff083\uff0956x3yz+14x2y2z\uff0d21xy2z2 (4)mn(m\uff0dn)\uff0dm(n\uff0dm)
17.\u5206\u89e3\u56e0\u5f0f\uff1a(1) 4xy\u2013(x2-4y2) (2)- (2a-b)2+4(a - b)2
18.\u5206\u89e3\u56e0\u5f0f\uff1a(1)-3ma3+6ma2-12ma (2) a2(x-y)+b2(y-x)
19\u3001\u5206\u89e3\u56e0\u5f0f
\uff081\uff09 \uff1b \uff082\uff09 \uff1b
\uff083\uff09 \uff1b
20.\u5206\u89e3\u56e0\u5f0f\uff1a(1) ax2y2+2axy+2a (2)(x2-6x)2+18(x2-6x)+81 (3) \u20132x2n-4xn
21\uff0e\u5c06\u4e0b\u5217\u5404\u5f0f\u5206\u89e3\u56e0\u5f0f\uff1a
\uff081\uff09 \uff1b \uff082\uff09 \uff1b \uff083\uff09 \uff1b
22\uff0e\u5206\u89e3\u56e0\u5f0f\uff081\uff09 \uff1b \uff082\uff09 \uff1b
23.\u7528\u7b80\u4fbf\u65b9\u6cd5\u8ba1\u7b97\uff1a
(1)57.6\u00d71.6+28.8\u00d736.8-14.4\u00d780 (2)39\u00d737-13\u00d734
\uff083\uff09\uff0e13.7
24\uff0e\u8bd5\u8bf4\u660e\uff1a\u4e24\u4e2a\u8fde\u7eed\u5947\u6570\u7684\u5e73\u65b9\u5dee\u662f\u8fd9\u4e24\u4e2a\u8fde\u7eed\u5947\u6570\u548c\u76842\u500d\u3002
25\uff0e\u5982\u56fe\uff0c\u5728\u4e00\u5757\u8fb9\u957f\u4e3aa\u5398\u7c73\u7684\u6b63\u65b9\u5f62\u7eb8\u677f\u56db\u89d2\uff0c\u5404\u526a\u53bb\u4e00\u4e2a\u8fb9\u957f\u4e3a b(b< )\u5398\u7c73\u7684\u6b63\u65b9\u5f62\uff0c\u5229\u7528\u56e0\u5f0f\u5206\u89e3\u8ba1\u7b97\u5f53a=13.2\uff0cb=3.4\u65f6\uff0c\u5269\u4f59\u90e8\u5206\u7684\u9762\u79ef\u3002
26\uff0e\u5c06\u4e0b\u5217\u5404\u5f0f\u5206\u89e3\u56e0\u5f0f
\uff081\uff09
\uff082\uff09 \uff1b
(3) (4)
(5)
(6)
(7) (8)
(9) \uff0810\uff09(x2+y2)2-4x2y2
\uff0812\uff09\uff0ex6n+2+2x3n+2+x2 \uff0813\uff09\uff0e9(a+1)2(a-1)2-6(a2-1)(b2-1)+(b+1)2(b-1)2
27.\u5df2\u77e5(4x-2y-1)2+ =0\uff0c\u6c424x2y-4x2y2+xy2\u7684\u503c.
28\uff0e\u5df2\u77e5\uff1aa=10000\uff0cb=9999\uff0c\u6c42a2+b2\uff0d2ab\uff0d6a+6b+9\u7684\u503c\u3002
29\uff0e\u8bc1\u660e58-1\u89e3\u88ab20\u223d30\u4e4b\u95f4\u7684\u4e24\u4e2a\u6574\u6570\u6574\u9664
30.\u5199\u4e00\u4e2a\u591a\u9879\u5f0f\uff0c\u518d\u628a\u5b83\u5206\u89e3\u56e0\u5f0f(\u8981\u6c42\uff1a\u591a\u9879\u5f0f\u542b\u6709\u5b57\u6bcdm\u548cn\uff0c\u7cfb\u6570\u3001\u6b21\u6570\u4e0d\u9650\uff0c\u5e76\u80fd\u5148\u7528\u63d0\u53d6\u516c\u56e0\u5f0f\u6cd5\u518d\u7528\u516c\u5f0f\u6cd5\u5206\u89e3).
31.\u89c2\u5bdf\u4e0b\u5217\u5404\u5f0f\uff1a
12+(1\u00d72)2+22=9=32
22+(2\u00d73)2+32=49=72
32+(3\u00d74)2+42=169=132
\u2026\u2026
\u4f60\u53d1\u73b0\u4e86\u4ec0\u4e48\u89c4\u5f8b\uff1f\u8bf7\u7528\u542b\u6709n(n\u4e3a\u6b63\u6574\u6570)\u7684\u7b49\u5f0f\u8868\u793a\u51fa\u6765\uff0c\u5e76\u8bf4\u660e\u5176\u4e2d\u7684\u9053\u7406.
32.\u9605\u8bfb\u4e0b\u5217\u56e0\u5f0f\u5206\u89e3\u7684\u8fc7\u7a0b\uff0c\u518d\u56de\u7b54\u6240\u63d0\u51fa\u7684\u95ee\u9898\uff1a
1+x+x(x+1)+x(x+1)2=(1+x)[1+x+x(x+1)]
=(1+x)2(1+x)
=(1+x)3
(1)\u4e0a\u8ff0\u5206\u89e3\u56e0\u5f0f\u7684\u65b9\u6cd5\u662f \uff0c\u5171\u5e94\u7528\u4e86 \u6b21.
(2)\u82e5\u5206\u89e31+x+x(x+1)+x(x+1)2+\u2026+ x(x+1)2004\uff0c\u5219\u9700\u5e94\u7528\u4e0a\u8ff0\u65b9\u6cd5 \u6b21\uff0c\u7ed3\u679c\u662f .
(3)\u5206\u89e3\u56e0\u5f0f\uff1a1+x+x(x+1)+x(x+1)2+\u2026+ x(x+1)n(n\u4e3a\u6b63\u6574\u6570).
34\uff0e\u82e5a\u3001b\u3001c\u4e3a\u25b3ABC\u7684\u4e09\u8fb9\uff0c\u4e14\u6ee1\u8db3a2+b2+c2\uff0dab\uff0dbc\uff0dca=0\u3002\u63a2\u7d22\u25b3ABC\u7684\u5f62\u72b6\uff0c\u5e76\u8bf4\u660e\u7406\u7531\u3002
35\uff0e\u9605\u8bfb\u4e0b\u5217\u8ba1\u7b97\u8fc7\u7a0b\uff1a
99\u00d799+199=992+2\u00d799+1=\uff0899+1\uff092=100 2=10 4
1\uff0e\u8ba1\u7b97\uff1a
999\u00d7999+1999=____________=_______________=_____________=_____________\uff1b
9999\u00d79999+19999=__________=_______________=______________=_______________\u3002
2\uff0e\u731c\u60f39999999999\u00d79999999999+19999999999\u7b49\u4e8e\u591a\u5c11\uff1f\u5199\u51fa\u8ba1\u7b97\u8fc7\u7a0b\u3002
36.\u6709\u82e5\u5e72\u4e2a\u5927\u5c0f\u76f8\u540c\u7684\u5c0f\u7403\u4e00\u4e2a\u6328\u4e00\u4e2a\u6446\u653e\uff0c\u521a\u597d\u6446\u6210\u4e00\u4e2a\u7b49\u8fb9\u4e09\u89d2\u5f62(\u5982\u56fe1)\uff1b\u5c06\u8fd9\u4e9b\u5c0f\u7403\u6362\u4e00\u79cd\u6446\u6cd5\uff0c\u4ecd\u4e00\u4e2a\u6328\u4e00\u4e2a\u6446\u653e\uff0c\u53c8\u521a\u597d\u6446\u6210\u4e00\u4e2a\u6b63\u65b9\u5f62(\u5982\u56fe2).\u8bd5\u95ee\uff1a\u8fd9\u79cd\u5c0f\u7403\u6700\u5c11\u6709\u591a\u5c11\u4e2a\uff1f
\u56fe1 \u56fe2
一、填空题:
2.(a-3)(3-2a)=_______(3-a)(3-2a);
12.若m2-3m+2=(m+a)(m+b),则a=______,b=______;
15.当m=______时,x2+2(m-3)x+25是完全平方式.
二、选择题:
1.下列各式的因式分解结果中,正确的是
[ ]
A.a2b+7ab-b=b(a2+7a)
B.3x2y-3xy-6y=3y(x-2)(x+1)
C.8xyz-6x2y2=2xyz(4-3xy)
D.-2a2+4ab-6ac=-2a(a+2b-3c)
2.多项式m(n-2)-m2(2-n)分解因式等于
[ ]
A.(n-2)(m+m2) B.(n-2)(m-m2)
C.m(n-2)(m+1) D.m(n-2)(m-1)
3.在下列等式中,属于因式分解的是
[ ]
A.a(x-y)+b(m+n)=ax+bm-ay+bn
B.a2-2ab+b2+1=(a-b)2+1
C.-4a2+9b2=(-2a+3b)(2a+3b)
D.x2-7x-8=x(x-7)-8
4.下列各式中,能用平方差公式分解因式的是
[ ]
A.a2+b2 B.-a2+b2
C.-a2-b2 D.-(-a2)+b2
5.若9x2+mxy+16y2是一个完全平方式,那么m的值是
[ ]
A.-12 B.±24
C.12 D.±12
6.把多项式an+4-an+1分解得
[ ]
A.an(a4-a) B.an-1(a3-1)
C.an+1(a-1)(a2-a+1) D.an+1(a-1)(a2+a+1)
7.若a2+a=-1,则a4+2a3-3a2-4a+3的值为
[ ]
A.8 B.7
C.10 D.12
8.已知x2+y2+2x-6y+10=0,那么x,y的值分别为
[ ]
A.x=1,y=3 B.x=1,y=-3
C.x=-1,y=3 D.x=1,y=-3
9.把(m2+3m)4-8(m2+3m)2+16分解因式得
[ ]
A.(m+1)4(m+2)2 B.(m-1)2(m-2)2(m2+3m-2)
C.(m+4)2(m-1)2 D.(m+1)2(m+2)2(m2+3m-2)2
10.把x2-7x-60分解因式,得
[ ]
A.(x-10)(x+6) B.(x+5)(x-12)
C.(x+3)(x-20) D.(x-5)(x+12)
11.把3x2-2xy-8y2分解因式,得
[ ]
A.(3x+4)(x-2) B.(3x-4)(x+2)
C.(3x+4y)(x-2y) D.(3x-4y)(x+2y)
12.把a2+8ab-33b2分解因式,得
[ ]
A.(a+11)(a-3) B.(a-11b)(a-3b)
C.(a+11b)(a-3b) D.(a-11b)(a+3b)
13.把x4-3x2+2分解因式,得
[ ]
A.(x2-2)(x2-1) B.(x2-2)(x+1)(x-1)
C.(x2+2)(x2+1) D.(x2+2)(x+1)(x-1)
14.多项式x2-ax-bx+ab可分解因式为
[ ]
A.-(x+a)(x+b) B.(x-a)(x+b)
C.(x-a)(x-b) D.(x+a)(x+b)
15.一个关于x的二次三项式,其x2项的系数是1,常数项是-12,且能分解因式,这样的二次三项式是
[ ]
A.x2-11x-12或x2+11x-12
B.x2-x-12或x2+x-12
C.x2-4x-12或x2+4x-12
D.以上都可以
16.下列各式x3-x2-x+1,x2+y-xy-x,x2-2x-y2+1,(x2+3x)2-(2x+1)2中,不含有(x-1)因式的有
[ ]
A.1个 B.2个
C.3个 D.4个
17.把9-x2+12xy-36y2分解因式为
[ ]
A.(x-6y+3)(x-6x-3)
B.-(x-6y+3)(x-6y-3)
C.-(x-6y+3)(x+6y-3)
D.-(x-6y+3)(x-6y+3)
18.下列因式分解错误的是
[ ]
A.a2-bc+ac-ab=(a-b)(a+c)
B.ab-5a+3b-15=(b-5)(a+3)
C.x2+3xy-2x-6y=(x+3y)(x-2)
D.x2-6xy-1+9y2=(x+3y+1)(x+3y-1)
19.已知a2x2±2x+b2是完全平方式,且a,b都不为零,则a与b的关系为
[ ]
A.互为倒数或互为负倒数 B.互为相反数
C.相等的数 D.任意有理数
20.对x4+4进行因式分解,所得的正确结论是
[ ]
A.不能分解因式 B.有因式x2+2x+2
C.(xy+2)(xy-8) D.(xy-2)(xy-8)
21.把a4+2a2b2+b4-a2b2分解因式为
[ ]
A.(a2+b2+ab)2 B.(a2+b2+ab)(a2+b2-ab)
C.(a2-b2+ab)(a2-b2-ab) D.(a2+b2-ab)2
22.-(3x-1)(x+2y)是下列哪个多项式的分解结果
[ ]
A.3x2+6xy-x-2y B.3x2-6xy+x-2y
C.x+2y+3x2+6xy D.x+2y-3x2-6xy
23.64a8-b2因式分解为
[ ]
A.(64a4-b)(a4+b) B.(16a2-b)(4a2+b)
C.(8a4-b)(8a4+b) D.(8a2-b)(8a4+b)
24.9(x-y)2+12(x2-y2)+4(x+y)2因式分解为
[ ]
A.(5x-y)2 B.(5x+y)2
C.(3x-2y)(3x+2y) D.(5x-2y)2
25.(2y-3x)2-2(3x-2y)+1因式分解为
[ ]
A.(3x-2y-1)2 B.(3x+2y+1)2
C.(3x-2y+1)2 D.(2y-3x-1)2
26.把(a+b)2-4(a2-b2)+4(a-b)2分解因式为
[ ]
A.(3a-b)2 B.(3b+a)2
C.(3b-a)2 D.(3a+b)2
27.把a2(b+c)2-2ab(a-c)(b+c)+b2(a-c)2分解因式为
[ ]
A.c(a+b)2 B.c(a-b)2
C.c2(a+b)2 D.c2(a-b)
28.若4xy-4x2-y2-k有一个因式为(1-2x+y),则k的值为
[ ]
A.0 B.1
C.-1 D.4
29.分解因式3a2x-4b2y-3b2x+4a2y,正确的是
[ ]
A.-(a2+b2)(3x+4y) B.(a-b)(a+b)(3x+4y)
C.(a2+b2)(3x-4y) D.(a-b)(a+b)(3x-4y)
30.分解因式2a2+4ab+2b2-8c2,正确的是
[ ]
A.2(a+b-2c) B.2(a+b+c)(a+b-c)
C.(2a+b+4c)(2a+b-4c) D.2(a+b+2c)(a+b-2c)
三、因式分解:
1.m2(p-q)-p+q;
2.a(ab+bc+ac)-abc;
3.x4-2y4-2x3y+xy3;
4.abc(a2+b2+c2)-a3bc+2ab2c2;
5.a2(b-c)+b2(c-a)+c2(a-b);
6.(x2-2x)2+2x(x-2)+1;
7.(x-y)2+12(y-x)z+36z2;
8.x2-4ax+8ab-4b2;
9.(ax+by)2+(ay-bx)2+2(ax+by)(ay-bx);
10.(1-a2)(1-b2)-(a2-1)2(b2-1)2;
11.(x+1)2-9(x-1)2;
12.4a2b2-(a2+b2-c2)2;
13.ab2-ac2+4ac-4a;
14.x3n+y3n;
15.(x+y)3+125;
16.(3m-2n)3+(3m+2n)3;
17.x6(x2-y2)+y6(y2-x2);
18.8(x+y)3+1;
19.(a+b+c)3-a3-b3-c3;
20.x2+4xy+3y2;
21.x2+18x-144;
22.x4+2x2-8;
23.-m4+18m2-17;
24.x5-2x3-8x;
25.x8+19x5-216x2;
26.(x2-7x)2+10(x2-7x)-24;
27.5+7(a+1)-6(a+1)2;
28.(x2+x)(x2+x-1)-2;
29.x2+y2-x2y2-4xy-1;
30.(x-1)(x-2)(x-3)(x-4)-48;
31.x2-y2-x-y;
32.ax2-bx2-bx+ax-3a+3b;
33.m4+m2+1;
34.a2-b2+2ac+c2;
35.a3-ab2+a-b;
36.625b4-(a-b)4;
37.x6-y6+3x2y4-3x4y2;
38.x2+4xy+4y2-2x-4y-35;
39.m2-a2+4ab-4b2;
40.5m-5n-m2+2mn-n2.
四、证明(求值):
1.已知a+b=0,求a3-2b3+a2b-2ab2的值.
2.求证:四个连续自然数的积再加上1,一定是一个完全平方数.
3.证明:(ac-bd)2+(bc+ad)2=(a2+b2)(c2+d2).
4.已知a=k+3,b=2k+2,c=3k-1,求a2+b2+c2+2ab-2bc-2ac的值.
5.若x2+mx+n=(x-3)(x+4),求(m+n)2的值.
6.当a为何值时,多项式x2+7xy+ay2-5x+43y-24可以分解为两个一次因式的乘积.
7.若x,y为任意有理数,比较6xy与x2+9y2的大小.
8.两个连续偶数的平方差是4的倍数.
参考答案:
一、填空题:
7.9,(3a-1)
10.x-5y,x-5y,x-5y,2a-b
11.+5,-2
12.-1,-2(或-2,-1)
14.bc+ac,a+b,a-c
15.8或-2
二、选择题:
1.B 2.C 3.C 4.B 5.B 6.D 7.A 8.C 9.D 10.B 11.C 12.C 13.B 14.C 15.D 16.B 17.B 18.D 19.A 20.B 21.B 22.D 23.C 24.A 25.A 26.C 27.C 28.C 29.D 30.D
三、因式分解:
1.(p-q)(m-1)(m+1).
8.(x-2b)(x-4a+2b).
11.4(2x-1)(2-x).
20.(x+3y)(x+y).
21.(x-6)(x+24).
27.(3+2a)(2-3a).
31.(x+y)(x-y-1).
38.(x+2y-7)(x+2y+5).
四、证明(求值):
2.提示:设四个连续自然数为n,n+1,n+2,n+3
6.提示:a=-18.
∴a=-18.
绛旓細鎴戦渶瑕200閬鍥犲紡鍒嗚В鐨勯鐩,灏介噺100閬浠ヤ笂 鎴戞湰鏉鏁板寰堝ソ鐨,浣嗘槸杩涙潵涓涓槦鏈熼兘寰堟櫄鎵嶇潯瑙,璁╂垜鐨勫ぇ鑴戝緱鍒颁簡寰堝ぇ鐨勫啿鍑,鐗瑰埆鏄湪涓娆″嚱鏁扮殑娴嬮獙涓,鎴戣冪殑寰堝樊,浣嗘槸鎴戝凡缁忓緢鍔姏鐨勮ˉ鏁戜簡,鎴戝嚑浣曞帀瀹,浠f暟鎬讳箣鏈夊叧xyz涓瑙... 鎴戞湰鏉ユ暟瀛﹀緢濂界殑,浣嗘槸杩涙潵涓涓槦鏈熼兘寰堟櫄鎵嶇潯瑙,璁╂垜鐨勫ぇ鑴戝緱鍒颁簡寰堝ぇ鐨勫啿鍑,鐗瑰埆...
绛旓細25.x2锛峹锛14 锛濇暣鏁板唴鏃犳硶鍒嗚В 26.9x2锛30x锛25锛(3x-5)^2 27.锛20x2锛9x锛20锛(-4x+5)(5x+4)28.12x2锛29x锛15锛(4x-3)(3x-5)29.36x2锛39x锛9锛3(3x+1)(4x+3)30.21x2锛31x锛22锛(21x+11)(x-2)31.9x4锛35x2锛4锛(9x^2+1)(x+2)(x-2)32.(2x锛1)(x...
绛旓細锛3锛121x2锛144y2;锛4锛4锛坅锛峛锛2锛嶏紙x锛峺锛2;锛5锛夛紙x锛2锛2+10锛坸锛2锛+25;锛6锛塧3锛坸+y锛2锛4a3c2.2.鐢ㄧ畝渚挎柟娉曡绠 锛1锛6.42锛3.62;锛2锛21042锛1042 锛3锛1.42脳9锛2.32脳36 绗簩绔 鍒嗚В鍥犲紡缁煎悎缁冧範 涓銆侀夋嫨棰 1.涓嬪垪鍚勫紡涓粠宸﹀埌鍙崇殑鍙樺舰,鏄鍥犲紡鍒嗚В鐨勬槸...
绛旓細鍒嗚В鍥犲紡m +5n-mn-5m 瑙o細m +5n-mn-5m= m -5m -mn+5n = (m -5m )+(-mn+5n)=m(m-5)-n(m-5)=(m-5)(m-n)鍒嗚В鍥犲紡bc(b+c)+ca(c-a)-ab(a+b)瑙o細bc(b+c)+ca(c-a)-ab(a+b)=bc(c-a+a+b)+ca(c-a)-ab(a+b)=bc(c-a)+ca(c-a)+bc(a+b)-ab(a+b...
绛旓細36.鍥犲紡鍒嗚Вx2-20x+100= 銆 37.鍥犲紡鍒嗚Вx2+4x+3= 銆 38.鍥犲紡鍒嗚В4x2-12x+5= 銆 39.鍥犲紡鍒嗚В涓嬪垪鍚勫紡: (1)3ax2-6ax= 銆 (2)x(x+2)-x= 銆 (3)x2-4x-ax+4a= 銆 (4)25x2-49= 銆 (5)36x2-60x+25= 銆 (6)4x2+12x+9= 銆 (7)x2-9x+18= 銆 (8)2x2-5x-3= 銆 (9)...
绛旓細鍥犲紡鍒嗚В3a3b2c锛6a2b2c2锛9ab2c3锛3ab^2 c(a^2-2ac+3c^2) 鍥犲紡鍒嗚Вxy锛6锛2x锛3y锛(x-3)(y-2)鍥犲紡鍒嗚Вx2(x锛峺)锛媦2(y锛峹)锛(x+y)(x-y)^2 鍥犲紡鍒嗚В2x2锛(a锛2b)x锛峚b锛(2x-a)(x+b)鍥犲紡鍒嗚Вa4锛9a2b2锛漚^2(a+3b)(a-3b)鑻ュ凡鐭3锛3x2锛4鍚湁x锛1鐨勫洜寮忥紝...
绛旓細鍥犲紡鍒嗚В缁冧範棰 涓銆佸~绌洪锛2锛(a锛3)(3锛2a)=___(3锛峚)(3锛2a)锛12锛庤嫢m2锛3m锛2=(m锛媋)(m锛媌)锛屽垯a=___锛宐=___锛15锛庡綋m=___鏃讹紝x2锛2(m锛3)x锛25鏄畬鍏ㄥ钩鏂瑰紡锛庝簩銆侀夋嫨棰橈細1锛庝笅鍒楀悇寮忕殑鍥犲紡鍒嗚В缁撴灉涓紝姝g‘鐨勬槸 [ ]A锛巃2b锛7ab锛峛锛漛(a2锛7a)B锛3x2y锛...
绛旓細25.x2锛峹锛14 锛濇暣鏁板唴鏃犳硶鍒嗚В 26.9x2锛30x锛25锛(3x-5)^2 27.锛20x2锛9x锛20锛(-4x+5)(5x+4)28.12x2锛29x锛15锛(4x-3)(3x-5)29.36x2锛39x锛9锛3(3x+1)(4x+3)30.21x2锛31x锛22锛(21x+11)(x-2)31.9x4锛35x2锛4锛(9x^2+1)(x+2)(x-2)32.(2x锛1)(x...
绛旓細13.鍥犲紡鍒嗚В(x锛1)2(x锛2)锛(x锛1)(x锛2)2锛-(x+1)(x+2)abc锛媋b锛4a锛漚(bc+b-4)(2)16x2锛81锛(4x+9)(4x-9)(3)9x2锛30x锛25锛(3x-5)^2 (4)x2锛7x锛30锛(x-10)(x+3)35.鍥犲紡鍒嗚Вx2锛25锛(x+5)(x-5)36.鍥犲紡鍒嗚Вx2锛20x锛100锛(x-10)^2 37.鍥犲紡鍒嗚Вx2...
绛旓細50閬鍥犲紡鍒嗚В鍜岀瓟妗 2.3a3b2c锛6a2b2c2锛9ab2c3锛3ab^2 c(a^2-2ac+3c^2)3.鍥犲紡鍒嗚Вxy锛6锛2x锛3y锛(x-3)(y-2)4.鍥犲紡鍒嗚Вx2(x锛峺)锛媦2(y锛峹)锛(x+y)(x-y)^2 5.鍥犲紡鍒嗚В2x2锛(a锛2b)x锛峚b锛(2x-a)(x+b)6.鍥犲紡鍒嗚Вa4锛9a2b2锛漚^2(a+3b)(a-3b)7.鑻ュ凡鐭3...
